diff --git a/docs/release_notes.rst b/docs/release_notes.rst
index 205b5af5..cf22cb66 100644
--- a/docs/release_notes.rst
+++ b/docs/release_notes.rst
@@ -16,6 +16,9 @@ Upcoming Release
 ..   The features listed below are not released yet, but will be part of the next release! 
 ..   To use the features already you have to use the ``master`` branch.
 
+* Corrected units for standing losses of TES technologies from per unit to %/hour and changed parameter names from "Energy losses during storage" to "standing losses" as well as "Temperature difference" to "temperature difference" for naming consistency.
+
+
 * Add standing losses as parameters for LTES
 
 `v0.13.2 <https://github.com/PyPSA/technology-data/releases/tag/v0.13.2>`__ (13th June 2025)
diff --git a/outputs/US/costs_2020.csv b/outputs/US/costs_2020.csv
index 22e25a03..553fa294 100644
--- a/outputs/US/costs_2020.csv
+++ b/outputs/US/costs_2020.csv
@@ -3721,20 +3721,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0,,
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water pit storage,FOM,0.2354,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0,,
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0,,
 central water pit storage,energy to power ratio,150.0,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0,,
 central water pit storage,investment,1.0622,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0,,
 central water pit storage,lifetime,20.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0,,
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0,,
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0,,
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,,,
@@ -3833,14 +3833,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0,,
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 decentral water tank storage,VOM,0.7168,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0,,
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0,,
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0,,
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0,,
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0,,
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0,,
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
diff --git a/outputs/US/costs_2025.csv b/outputs/US/costs_2025.csv
index 8a4d3d1d..2d306b1e 100644
--- a/outputs/US/costs_2025.csv
+++ b/outputs/US/costs_2025.csv
@@ -3801,20 +3801,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0,,
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water pit storage,FOM,0.2354,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0,,
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0,,
 central water pit storage,energy to power ratio,150.0,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0,,
 central water pit storage,investment,1.0622,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0,,
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0,,
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0,,
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0,,
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,,,
@@ -3919,14 +3919,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0,,
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 decentral water tank storage,VOM,0.8704,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0,,
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0,,
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0,,
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0,,
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0,,
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0,,
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
diff --git a/outputs/US/costs_2030.csv b/outputs/US/costs_2030.csv
index 15f01935..b6a83c3c 100644
--- a/outputs/US/costs_2030.csv
+++ b/outputs/US/costs_2030.csv
@@ -3957,20 +3957,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0,,
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water pit storage,FOM,0.2354,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0,,
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0,,
 central water pit storage,energy to power ratio,30.0,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0,,
 central water pit storage,investment,1.0622,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0,,
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0,,
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0,,
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0,,
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,,,
@@ -4075,14 +4075,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0,,
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 decentral water tank storage,VOM,1.0241,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0,,
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0,,
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0,,
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0,,
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0,,
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0,,
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
diff --git a/outputs/US/costs_2035.csv b/outputs/US/costs_2035.csv
index 38c1b5da..0eabb35d 100644
--- a/outputs/US/costs_2035.csv
+++ b/outputs/US/costs_2035.csv
@@ -3981,20 +3981,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0,,
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water pit storage,FOM,0.2354,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0,,
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0,,
 central water pit storage,energy to power ratio,22.5,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0,,
 central water pit storage,investment,1.0622,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0,,
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0,,
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0,,
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0,,
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,,,
@@ -4099,14 +4099,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0,,
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 decentral water tank storage,VOM,1.1265,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0,,
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0,,
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0,,
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0,,
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0,,
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0,,
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
diff --git a/outputs/US/costs_2040.csv b/outputs/US/costs_2040.csv
index a97c261d..089538ea 100644
--- a/outputs/US/costs_2040.csv
+++ b/outputs/US/costs_2040.csv
@@ -3981,20 +3981,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0,,
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water pit storage,FOM,0.2544,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0,,
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0,,
 central water pit storage,energy to power ratio,22.5,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0,,
 central water pit storage,investment,0.9826,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0,,
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0,,
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0,,
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0,,
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,,,
@@ -4099,14 +4099,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0,,
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 decentral water tank storage,VOM,1.2289,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0,,
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0,,
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0,,
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0,,
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0,,
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0,,
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
diff --git a/outputs/US/costs_2045.csv b/outputs/US/costs_2045.csv
index 726787f1..836a28d8 100644
--- a/outputs/US/costs_2045.csv
+++ b/outputs/US/costs_2045.csv
@@ -3981,20 +3981,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0,,
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water pit storage,FOM,0.2544,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0,,
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0,,
 central water pit storage,energy to power ratio,22.5,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0,,
 central water pit storage,investment,0.9826,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0,,
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0,,
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0,,
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0,,
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,,,
@@ -4099,14 +4099,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0,,
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 decentral water tank storage,VOM,1.2289,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0,,
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0,,
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0,,
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0,,
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0,,
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0,,
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
diff --git a/outputs/US/costs_2050.csv b/outputs/US/costs_2050.csv
index 6695cc35..588b3882 100644
--- a/outputs/US/costs_2050.csv
+++ b/outputs/US/costs_2050.csv
@@ -3981,20 +3981,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0,,
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water pit storage,FOM,0.2544,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0,,
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0,,
 central water pit storage,energy to power ratio,22.5,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0,,
 central water pit storage,investment,0.9826,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0,,
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0,,
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0,,
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0,,
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0,,
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0,,
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0,,
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0,,
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,,,
@@ -4099,14 +4099,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0,,
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0,,
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0,,
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0,,
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 decentral water tank storage,VOM,1.2289,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0,,
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0,,
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0,,
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0,,
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0,,
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0,,
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0,,
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0,,
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0,,
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
diff --git a/outputs/costs_2020.csv b/outputs/costs_2020.csv
index 610fa170..150b4b81 100644
--- a/outputs/costs_2020.csv
+++ b/outputs/costs_2020.csv
@@ -825,20 +825,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water pit storage,FOM,0.2354,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0
 central water pit storage,energy to power ratio,150.0,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0
 central water pit storage,investment,1.0622,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0
 central water pit storage,lifetime,20.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,
@@ -894,14 +894,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 decentral water tank storage,VOM,0.7168,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,
diff --git a/outputs/costs_2025.csv b/outputs/costs_2025.csv
index 9392ebd6..859705b4 100644
--- a/outputs/costs_2025.csv
+++ b/outputs/costs_2025.csv
@@ -825,20 +825,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water pit storage,FOM,0.2354,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0
 central water pit storage,energy to power ratio,150.0,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0
 central water pit storage,investment,1.0622,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,
@@ -894,14 +894,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 decentral water tank storage,VOM,0.8704,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,
diff --git a/outputs/costs_2030.csv b/outputs/costs_2030.csv
index 28ef0bbd..5328099c 100644
--- a/outputs/costs_2030.csv
+++ b/outputs/costs_2030.csv
@@ -825,20 +825,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water pit storage,FOM,0.2354,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0
 central water pit storage,energy to power ratio,30.0,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0
 central water pit storage,investment,1.0622,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,
@@ -894,14 +894,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 decentral water tank storage,VOM,1.0241,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,
diff --git a/outputs/costs_2035.csv b/outputs/costs_2035.csv
index 3c3d11a2..6a354788 100644
--- a/outputs/costs_2035.csv
+++ b/outputs/costs_2035.csv
@@ -825,20 +825,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water pit storage,FOM,0.2354,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0
 central water pit storage,energy to power ratio,22.5,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0
 central water pit storage,investment,1.0622,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,
@@ -894,14 +894,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 decentral water tank storage,VOM,1.1265,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,
diff --git a/outputs/costs_2040.csv b/outputs/costs_2040.csv
index 4f3d290c..8d94db34 100644
--- a/outputs/costs_2040.csv
+++ b/outputs/costs_2040.csv
@@ -825,20 +825,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water pit storage,FOM,0.2544,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0
 central water pit storage,energy to power ratio,22.5,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0
 central water pit storage,investment,0.9826,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,
@@ -894,14 +894,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 decentral water tank storage,VOM,1.2289,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,
diff --git a/outputs/costs_2045.csv b/outputs/costs_2045.csv
index 34ffc115..f579d8a0 100644
--- a/outputs/costs_2045.csv
+++ b/outputs/costs_2045.csv
@@ -825,20 +825,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water pit storage,FOM,0.2544,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0
 central water pit storage,energy to power ratio,22.5,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0
 central water pit storage,investment,0.9826,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,
@@ -894,14 +894,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 decentral water tank storage,VOM,1.2289,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,
diff --git a/outputs/costs_2050.csv b/outputs/costs_2050.csv
index 0843a11f..fb4a58e9 100644
--- a/outputs/costs_2050.csv
+++ b/outputs/costs_2050.csv
@@ -825,20 +825,20 @@ central solid biomass CHP powerboost CC,lifetime,25.0,years,"Danish Energy Agenc
 central water pit charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water pit discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
 central water pit storage,Bottom storage temperature,35.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical bottom storage temperature,2020.0
-central water pit storage,Energy losses during storage,0.0078,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water pit storage,FOM,0.2544,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Fixed O&M,2020.0
 central water pit storage,Top storage temperature,90.0,⁰C,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Typical max. storage temperature,2020.0
 central water pit storage,energy to power ratio,22.5,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Ratio between energy storage and input capacity,2020.0
 central water pit storage,investment,0.9826,EUR/kWh Capacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Specific investment,2020.0
 central water pit storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Technical lifetime,2020.0
+central water pit storage,standing losses,0.0078,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal:  Energy losses during storage,2020.0
 central water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 central water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-central water tank storage,Energy losses during storage,0.0077,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
 central water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-central water tank storage,Temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 central water tank storage,energy to power ratio,60.3448,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Ratio between energy storage and input capacity,2020.0
 central water tank storage,investment,3.0361,EUR/kWhCapacity,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Specific investment,2020.0
 central water tank storage,lifetime,40.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Technical lifetime,2020.0
+central water tank storage,standing losses,0.0077,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Energy losses during storage,2020.0
+central water tank storage,temperature difference,55.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",141 Large hot water tank:  Typical temperature difference,2020.0
 clean water tank storage,FOM,2.0,%/year,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,investment,69.1286,EUR/m^3-H2O,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,2013.0
 clean water tank storage,lifetime,30.0,years,"Caldera et al 2016: Local cost of seawater RO desalination based on solar PV and windenergy: A global estimate. (https://doi.org/10.1016/j.desal.2016.02.004), Table 1.",,
@@ -894,14 +894,14 @@ decentral solar thermal,investment,285719.8393,EUR/1000m2,HP, from old pypsa cos
 decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions,2015.0
 decentral water tank charger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Charger efficiency,2020.0
 decentral water tank discharger,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Discharger efficiency,2020.0
-decentral water tank storage,Energy losses during storage,2.1,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
 decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions,2015.0
-decentral water tank storage,Temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 decentral water tank storage,VOM,1.2289,EUR/MWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Variable O&M,2020.0
 decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions,2015.0
 decentral water tank storage,energy to power ratio,0.15,h,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Ratio between energy storage and input capacity,2020.0
 decentral water tank storage,investment,419.8622,EUR/kWh,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Specific investment,2020.0
 decentral water tank storage,lifetime,30.0,years,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Technical lifetime,2020.0
+decentral water tank storage,standing losses,2.1,%/hour,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Energy losses during storage,2020.0
+decentral water tank storage,temperature difference,30.0,"hot/cold, K","Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",142 Small scale hot water tank:  Typical temperature difference,2020.0
 digestible biomass,fuel,17.0611,EUR/MWh_th,"JRC ENSPRESO ca avg for MINBIOAGRW1, ENS_Ref for 2040",,2010.0
 digestible biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0
 digestible biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,
diff --git a/scripts/compile_cost_assumptions.py b/scripts/compile_cost_assumptions.py
index a6a70186..e4a269de 100644
--- a/scripts/compile_cost_assumptions.py
+++ b/scripts/compile_cost_assumptions.py
@@ -821,9 +821,11 @@ def get_data_DEA(
     # average data  in format "lower_value-upper_value"
     df = df.apply(
         lambda row: row.apply(
-            lambda x: (float(x.split("-")[0]) + float(x.split("-")[1])) / 2
-            if isinstance(x, str) and "-" in x
-            else x
+            lambda x: (
+                (float(x.split("-")[0]) + float(x.split("-")[1])) / 2
+                if isinstance(x, str) and "-" in x
+                else x
+            )
         ),
         axis=1,
     )
@@ -2194,7 +2196,7 @@ def order_data(years: list, technology_dataframe: pd.DataFrame) -> pd.DataFrame:
             energy_loss = df.loc[
                 df.index.str.contains("Energy losses during storage")
             ].copy()
-            energy_loss["parameter"] = "Energy losses during storage"
+            energy_loss["parameter"] = "standing losses"
             energy_loss.loc[("Energy losses during storage", years)] = (
                 energy_loss.loc[("Energy losses during storage", years)]
                 / (
@@ -2206,14 +2208,14 @@ def order_data(years: list, technology_dataframe: pd.DataFrame) -> pd.DataFrame:
                 * 100
                 / 24
             )  # 78°C is the average temperature for ptes
-            energy_loss["unit"] = "per unit"
+            energy_loss["unit"] = "%/hour"
             clean_df[tech_name] = pd.concat([clean_df[tech_name], energy_loss])
 
         if tech_name == "central water tank storage":
             temp_difference_central_ttes = df.loc[
                 df.index.str.contains("Typical temperature difference in storage")
             ].copy()
-            temp_difference_central_ttes["parameter"] = "Temperature difference"
+            temp_difference_central_ttes["parameter"] = "temperature difference"
             temp_difference_central_ttes.rename(
                 index={
                     "Typical temperature difference in storage": "Typical temperature difference"
@@ -2226,16 +2228,16 @@ def order_data(years: list, technology_dataframe: pd.DataFrame) -> pd.DataFrame:
             energy_loss = df.loc[
                 df.index.str.contains("Energy losses during storage")
             ].copy()
-            energy_loss["parameter"] = "Energy losses during storage"
+            energy_loss["parameter"] = "standing losses"
             energy_loss[years] = energy_loss[years] / 24
-            energy_loss["unit"] = "per unit"
+            energy_loss["unit"] = "%/hour"
             clean_df[tech_name] = pd.concat([clean_df[tech_name], energy_loss])
 
         if tech_name == "decentral water tank storage":
             temp_difference_decentral_ttes = df.loc[
                 df.index.str.contains("Typical temperature difference in storage")
             ].copy()
-            temp_difference_decentral_ttes["parameter"] = "Temperature difference"
+            temp_difference_decentral_ttes["parameter"] = "temperature difference"
             temp_difference_decentral_ttes.rename(
                 index={
                     "Typical temperature difference in storage": "Typical temperature difference"
@@ -2248,8 +2250,9 @@ def order_data(years: list, technology_dataframe: pd.DataFrame) -> pd.DataFrame:
             energy_loss = df.loc[
                 df.index.str.contains("Energy losses during storage")
             ].copy()
-            energy_loss["parameter"] = "Energy losses during storage"
-            energy_loss["unit"] = "per unit"
+            energy_loss["parameter"] = "standing losses"
+            energy_loss[years] = energy_loss[years]
+            energy_loss["unit"] = "%/hour"
             clean_df[tech_name] = pd.concat([clean_df[tech_name], energy_loss])
 
         # add c_v and c_b coefficient