 | 1 | initial version |
Hi, I am trying to simulate the PV-performance using the Equivalent one diode model. Doing the simulation the error occurs : invalid pv performance object name. When I am doing the same simulation with the same name using the simple model everything goes well. Has someone a suggestion?
| | 2 | None |
Hi, I am trying to simulate the PV-performance using the Equivalent one diode model. Doing the simulation the error occurs : invalid pv performance object name. When I am doing the same simulation with the same name using the simple model everything goes well. Has someone a suggestion?
| | 3 | retagged |
Hi, I am trying to simulate the PV-performance using the Equivalent one diode model. Doing the simulation the error occurs : invalid pv performance object name. When I am doing the same simulation with the same name using the simple model everything goes well. Has someone a suggestion?
| | 4 | retagged |
Hi, I am trying to simulate the PV-performance using the Equivalent one diode model. Doing the simulation the error occurs : invalid pv performance object name. When I am doing the same simulation with the same name using the simple model everything goes well. Has someone a suggestion?
Hi, I am trying to simulate the PV-performance using the Equivalent one diode model. Doing the simulation the error occurs : invalid pv performance object name. When I am doing the same simulation with the same name using the simple model everything goes well. Has someone a suggestion?
The simple PV model looks like this:
Generator:Photovoltaic, PV0, !- Name PV0, !- Surface Name PhotovoltaicPerformance:Simple, !- Photovoltaic Performance Object Type PV0, !- Module Performance Name IntegratedSurfaceOutsideFace, !- Heat Transfer Integration Mode 1, !- Number of Series Strings in Parallel {dimensionless} 1; !- Number of Modules in Series {dimensionless}
Generator:Photovoltaic, PV80, !- Name PV80, !- Surface Name PhotovoltaicPerformance:Simple, !- Photovoltaic Performance Object Type PV80, !- Module Performance Name IntegratedSurfaceOutsideFace, !- Heat Transfer Integration Mode 1, !- Number of Series Strings in Parallel {dimensionless} 1; !- Number of Modules in Series {dimensionless}
!- =========== ALL OBJECTS IN CLASS: PHOTOVOLTAICPERFORMANCE:SIMPLE ===========
PhotovoltaicPerformance:Simple, PV0, !- Name 1, !- Fraction of Surface Area with Active Solar Cells {dimensionless} Scheduled, !- Conversion Efficiency Input Mode 0.138, !- Value for Cell Efficiency if Fixed PV0_Eff; !- Efficiency Schedule Name
PhotovoltaicPerformance:Simple, PV80, !- Name 1, !- Fraction of Surface Area with Active Solar Cells {dimensionless} Scheduled, !- Conversion Efficiency Input Mode 0.138, !- Value for Cell Efficiency if Fixed PV80_Eff; !- Efficiency Schedule Name
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:GENERATORS ===========
ElectricLoadCenter:Generators, Gen1, !- Name PV0, !- Generator 1 Name Generator:Photovoltaic, !- Generator 1 Object Type 145, !- Generator 1 Rated Electric Power Output {W} PV0, !- Generator 1 Availability Schedule Name , !- Generator 1 Rated Thermal to Electrical Power Ratio PV80, !- Generator 2 Name Generator:Photovoltaic, !- Generator 2 Object Type 145, !- Generator 2 Rated Electric Power Output {W} Lueftung_Verfuegbarkeit; !- Generator 2 Availability Schedule Name
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:INVERTER:SIMPLE ===========
ElectricLoadCenter:Inverter:Simple, Inv1, !- Name On, !- Availability Schedule Name , !- Zone Name , !- Radiative Fraction 1; !- Inverter Efficiency
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:DISTRIBUTION ===========
ElectricLoadCenter:Distribution, Verteilung, !- Name Gen1, !- Generator List Name Baseload, !- Generator Operation Scheme Type 10000, !- Generator Demand Limit Scheme Purchased Electric Demand Limit {W} , !- Generator Track Schedule Name Scheme Schedule Name , !- Generator Track Meter Scheme Meter Name DirectCurrentWithInverter, !- Electrical Buss Type Inv1; !- Inverter Name
and the onediode model is the following:
Generator:Photovoltaic, PV0, !- Name PV0, !- Surface Name PhotovoltaicPerformance:Simple, !- Photovoltaic Performance Object Type PV0, !- Module Performance Name IntegratedSurfaceOutsideFace, !- Heat Transfer Integration Mode 1, !- Number of Series Strings in Parallel {dimensionless} 1; !- Number of Modules in Series {dimensionless}
Generator:Photovoltaic, PV80, !- Name PV80, !- Surface Name PhotovoltaicPerformance:Simple, !- Photovoltaic Performance Object Type PV80, !- Module Performance Name IntegratedSurfaceOutsideFace, !- Heat Transfer Integration Mode 1, !- Number of Series Strings in Parallel {dimensionless} 1; !- Number of Modules in Series {dimensionless}
!- =========== ALL OBJECTS IN CLASS: PHOTOVOLTAICPERFORMANCE:EQUIVALENTONE-DIODE ===========
PhotovoltaicPerformance:EquivalentOne-Diode, PV0, !- Name AmorphousSilicon, !- Cell type 1, !- Number of Cells in Series {dimensionless} 1.0538, !- Active Area {m2} 0.95, !- Transmittance Absorptance Product {dimensionless} 1.12, !- Semiconductor Bandgap {eV} 1000000, !- Shunt Resistance {ohms} 3.36, !- Short Circuit Current {A} 60.4, !- Open Circuit Voltage {V} 25, !- Reference Temperature {C} 1000, !- Reference Insolation {W/m2} 3.06, !- Module Current at Maximum Power {A} 47.4, !- Module Voltage at Maximum Power {V} 0, !- Temperature Coefficient of Short Circuit Current {A/K} -.17, !- Temperature Coefficient of Open Circuit Voltage {V/K} 20, !- Nominal Operating Cell Temperature Test Ambient Temperature {C} 40, !- Nominal Operating Cell Temperature Test Cell Temperature {C} 800, !- Nominal Operating Cell Temperature Test Insolation {W/m2} 30, !- Module Heat Loss Coefficient {W/m2-K} 50000; !- Total Heat Capacity {J/m2-K}
PhotovoltaicPerformance:EquivalentOne-Diode, PV80, !- Name AmorphousSilicon, !- Cell type 1, !- Number of Cells in Series {dimensionless} 1.0538, !- Active Area {m2} 0.95, !- Transmittance Absorptance Product {dimensionless} 1.12, !- Semiconductor Bandgap {eV} 1000000, !- Shunt Resistance {ohms} 3.36, !- Short Circuit Current {A} 60.4, !- Open Circuit Voltage {V} 25, !- Reference Temperature {C} 1000, !- Reference Insolation {W/m2} 3.06, !- Module Current at Maximum Power {A} 47.4, !- Module Voltage at Maximum Power {V} 0, !- Temperature Coefficient of Short Circuit Current {A/K} -.17, !- Temperature Coefficient of Open Circuit Voltage {V/K} 20, !- Nominal Operating Cell Temperature Test Ambient Temperature {C} 40, !- Nominal Operating Cell Temperature Test Cell Temperature {C} 800, !- Nominal Operating Cell Temperature Test Insolation {W/m2} 30, !- Module Heat Loss Coefficient {W/m2-K} 50000; !- Total Heat Capacity {J/m2-K}
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:GENERATORS ===========
ElectricLoadCenter:Generators, Gen1, !- Name PV0, !- Generator 1 Name Generator:Photovoltaic, !- Generator 1 Object Type 145, !- Generator 1 Rated Electric Power Output {W} PV0, !- Generator 1 Availability Schedule Name , !- Generator 1 Rated Thermal to Electrical Power Ratio PV80, !- Generator 2 Name Generator:Photovoltaic, !- Generator 2 Object Type 145, !- Generator 2 Rated Electric Power Output {W} Lueftung_Verfuegbarkeit; !- Generator 2 Availability Schedule Name
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:INVERTER:SIMPLE ===========
ElectricLoadCenter:Inverter:Simple, Inv1, !- Name On, !- Availability Schedule Name , !- Zone Name , !- Radiative Fraction 1; !- Inverter Efficiency
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:DISTRIBUTION ===========
ElectricLoadCenter:Distribution, Dis, !- Name Gen1, !- Generator List Name Baseload, !- Generator Operation Scheme Type 10000, !- Generator Demand Limit Scheme Purchased Electric Demand Limit {W} , !- Generator Track Schedule Name Scheme Schedule Name , !- Generator Track Meter Scheme Meter Name DirectCurrentWithInverter, !- Electrical Buss Type Inv1; !- Inverter Name
Hi, I am trying to simulate the PV-performance using the Equivalent one diode model. Doing the simulation the error occurs : invalid pv performance object name. When I am doing the same simulation with the same name using the simple model everything goes well. Has someone a suggestion?
The simple PV model looks like this:
Generator:Photovoltaic, PV0, !- Name PV0, !- Surface Name PhotovoltaicPerformance:Simple, !- Photovoltaic Performance Object Type PV0, !- Module Performance Name IntegratedSurfaceOutsideFace, !- Heat Transfer Integration Mode 1, !- Number of Series Strings in Parallel {dimensionless} 1; !- Number of Modules in Series {dimensionless}
Generator:Photovoltaic, PV80, !- Name PV80, !- Surface Name PhotovoltaicPerformance:Simple, !- Photovoltaic Performance Object Type PV80, !- Module Performance Name IntegratedSurfaceOutsideFace, !- Heat Transfer Integration Mode 1, !- Number of Series Strings in Parallel {dimensionless} 1; !- Number of Modules in Series {dimensionless}
!- =========== ALL OBJECTS IN CLASS: PHOTOVOLTAICPERFORMANCE:SIMPLE ===========
PhotovoltaicPerformance:Simple, PV0, !- Name 1, !- Fraction of Surface Area with Active Solar Cells {dimensionless} Scheduled, !- Conversion Efficiency Input Mode 0.138, !- Value for Cell Efficiency if Fixed PV0_Eff; !- Efficiency Schedule Name
PhotovoltaicPerformance:Simple, PV80, !- Name 1, !- Fraction of Surface Area with Active Solar Cells {dimensionless} Scheduled, !- Conversion Efficiency Input Mode 0.138, !- Value for Cell Efficiency if Fixed PV80_Eff; !- Efficiency Schedule Name
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:GENERATORS ===========
ElectricLoadCenter:Generators, Gen1, !- Name PV0, !- Generator 1 Name Generator:Photovoltaic, !- Generator 1 Object Type 145, !- Generator 1 Rated Electric Power Output {W} PV0, !- Generator 1 Availability Schedule Name , !- Generator 1 Rated Thermal to Electrical Power Ratio PV80, !- Generator 2 Name Generator:Photovoltaic, !- Generator 2 Object Type 145, !- Generator 2 Rated Electric Power Output {W} Lueftung_Verfuegbarkeit; !- Generator 2 Availability Schedule Name
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:INVERTER:SIMPLE ===========
ElectricLoadCenter:Inverter:Simple, Inv1, !- Name On, !- Availability Schedule Name , !- Zone Name , !- Radiative Fraction 1; !- Inverter Efficiency
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:DISTRIBUTION ===========
ElectricLoadCenter:Distribution, Verteilung, !- Name Gen1, !- Generator List Name Baseload, !- Generator Operation Scheme Type 10000, !- Generator Demand Limit Scheme Purchased Electric Demand Limit {W} , !- Generator Track Schedule Name Scheme Schedule Name , !- Generator Track Meter Scheme Meter Name DirectCurrentWithInverter, !- Electrical Buss Type Inv1; !- Inverter Name
and the onediode model is the following:
Generator:Photovoltaic, PV0, !- Name PV0, !- Surface Name PhotovoltaicPerformance:Simple, !- Photovoltaic Performance Object Type PV0, !- Module Performance Name IntegratedSurfaceOutsideFace, !- Heat Transfer Integration Mode 1, !- Number of Series Strings in Parallel {dimensionless} 1; !- Number of Modules in Series {dimensionless}
Generator:Photovoltaic, PV80, !- Name PV80, !- Surface Name PhotovoltaicPerformance:Simple, !- Photovoltaic Performance Object Type PV80, !- Module Performance Name IntegratedSurfaceOutsideFace, !- Heat Transfer Integration Mode 1, !- Number of Series Strings in Parallel {dimensionless} 1; !- Number of Modules in Series {dimensionless}
!- =========== ALL OBJECTS IN CLASS: PHOTOVOLTAICPERFORMANCE:EQUIVALENTONE-DIODE ===========
PhotovoltaicPerformance:EquivalentOne-Diode, PV0, !- Name AmorphousSilicon, !- Cell type 1, !- Number of Cells in Series {dimensionless} 1.0538, !- Active Area {m2} 0.95, !- Transmittance Absorptance Product {dimensionless} 1.12, !- Semiconductor Bandgap {eV} 1000000, !- Shunt Resistance {ohms} 3.36, !- Short Circuit Current {A} 60.4, !- Open Circuit Voltage {V} 25, !- Reference Temperature {C} 1000, !- Reference Insolation {W/m2} 3.06, !- Module Current at Maximum Power {A} 47.4, !- Module Voltage at Maximum Power {V} 0, !- Temperature Coefficient of Short Circuit Current {A/K} -.17, !- Temperature Coefficient of Open Circuit Voltage {V/K} 20, !- Nominal Operating Cell Temperature Test Ambient Temperature {C} 40, !- Nominal Operating Cell Temperature Test Cell Temperature {C} 800, !- Nominal Operating Cell Temperature Test Insolation {W/m2} 30, !- Module Heat Loss Coefficient {W/m2-K} 50000; !- Total Heat Capacity {J/m2-K}
PhotovoltaicPerformance:EquivalentOne-Diode, PV80, !- Name AmorphousSilicon, !- Cell type 1, !- Number of Cells in Series {dimensionless} 1.0538, !- Active Area {m2} 0.95, !- Transmittance Absorptance Product {dimensionless} 1.12, !- Semiconductor Bandgap {eV} 1000000, !- Shunt Resistance {ohms} 3.36, !- Short Circuit Current {A} 60.4, !- Open Circuit Voltage {V} 25, !- Reference Temperature {C} 1000, !- Reference Insolation {W/m2} 3.06, !- Module Current at Maximum Power {A} 47.4, !- Module Voltage at Maximum Power {V} 0, !- Temperature Coefficient of Short Circuit Current {A/K} -.17, !- Temperature Coefficient of Open Circuit Voltage {V/K} 20, !- Nominal Operating Cell Temperature Test Ambient Temperature {C} 40, !- Nominal Operating Cell Temperature Test Cell Temperature {C} 800, !- Nominal Operating Cell Temperature Test Insolation {W/m2} 30, !- Module Heat Loss Coefficient {W/m2-K} 50000; !- Total Heat Capacity {J/m2-K}
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:GENERATORS ===========
ElectricLoadCenter:Generators, Gen1, !- Name PV0, !- Generator 1 Name Generator:Photovoltaic, !- Generator 1 Object Type 145, !- Generator 1 Rated Electric Power Output {W} PV0, !- Generator 1 Availability Schedule Name , !- Generator 1 Rated Thermal to Electrical Power Ratio PV80, !- Generator 2 Name Generator:Photovoltaic, !- Generator 2 Object Type 145, !- Generator 2 Rated Electric Power Output {W} Lueftung_Verfuegbarkeit; !- Generator 2 Availability Schedule Name
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:INVERTER:SIMPLE ===========
ElectricLoadCenter:Inverter:Simple, Inv1, !- Name On, !- Availability Schedule Name , !- Zone Name , !- Radiative Fraction 1; !- Inverter Efficiency
!- =========== ALL OBJECTS IN CLASS: ELECTRICLOADCENTER:DISTRIBUTION ===========
ElectricLoadCenter:Distribution, Dis, !- Name Gen1, !- Generator List Name Baseload, !- Generator Operation Scheme Type 10000, !- Generator Demand Limit Scheme Purchased Electric Demand Limit {W} , !- Generator Track Schedule Name Scheme Schedule Name , !- Generator Track Meter Scheme Meter Name DirectCurrentWithInverter, !- Electrical Buss Type Inv1; !- Inverter Name
Hi, I am trying to simulate the PV-performance using the Equivalent one diode model. Doing the simulation the error occurs : invalid pv performance object name. When I am doing the same simulation with the same name using the simple model everything goes well. Has someone a suggestion?
The simple PV model looks like this:
and the onediode model is the following:
