ElectricGenerators.idf

!===================================================================================
! ElectricGenerators.idf
!
! This dataset includes inputs for the Generator:MicroTurbine object and
! associated performance curves. The performance curves were developed from
! manufacturers data collected in Summer 2007.
!
!                       Reference Electric   Reference Electrical
! Generator Name        Power Output (kW)    Efficiency (LHV basis)
! Capstone C65                65                   0.29
! Elliott TA100              100                   0.2874
! Ingersoll Rand MT70         70                   0.28
! Ingersoll Rand MT250       250                   0.29
!
! Capstone C65
! References:
!  Capstone Doc #480014 Rev A (Feb 2006)
!  Capstone Doc #410048 Rev A (Dec 2005)
!  Capstone Doc #460000-001 Rev H (Dec 2005)
!  http://www.microturbine.com/
!  Data accounts for external gas pressure booster pump (ancillary power)
!
! The objects and syntax in this dataset comply with EnergyPlus, Version 8.4.0 and above, unless otherwise noted.

!  Version,
!    9.0;                    !- Version Identifier

  Generator:MicroTurbine,
    Capstone C65,            !- Name
    65000,                   !- Reference Electrical Power Output {W}
    29900,                   !- Minimum Full Load Electrical Power Output {W}
    65000,                   !- Maximum Full Load Electrical Power Output {W}
    0.29,                    !- Reference Electrical Efficiency Using Lower Heating Value
    15.0,                    !- Reference Combustion Air Inlet Temperature {C}
    0.00638,                 !- Reference Combustion Air Inlet Humidity Ratio {kgWater/kgDryAir}
    0.0,                     !- Reference Elevation {m}
    Capstone C65 Power_vs_Temp_Elev,  !- Electrical Power Function of Temperature and Elevation Curve Name
    Capstone C65 Efficiency_vs_Temp,  !- Electrical Efficiency Function of Temperature Curve Name
    Capstone C65 Efficiency_vs_PLR,  !- Electrical Efficiency Function of Part Load Ratio Curve Name
    NaturalGas,              !- Fuel Type
    50000,                   !- Fuel Higher Heating Value {kJ/kg}
    45450,                   !- Fuel Lower Heating Value {kJ/kg}
    300,                     !- Standby Power {W}
    4500;                    !- Ancillary Power {W}

!
! Curve set (3 Curves):
!
! Electrical Power Modifier Curve (function of temperature and elevation)
! x = Dry-Bulb Temperature of Combustion Inlet Air (C) and y = Elevation (meters)
!

  Curve:Biquadratic,
    Capstone C65 Power_vs_Temp_Elev,  !- Name
    1.2027697,               !- Coefficient1 Constant
    -9.671305E-03,           !- Coefficient2 x
    -4.860793E-06,           !- Coefficient3 x**2
    -1.542394E-04,           !- Coefficient4 y
    9.111418E-09,            !- Coefficient5 y**2
    8.797885E-07,            !- Coefficient6 x*y
    -17.8,                   !- Minimum Value of x
    50.0,                    !- Maximum Value of x
    0.0,                     !- Minimum Value of y
    3050.;                   !- Maximum Value of y

!
! Electrical Efficiency Modifier Curve (function of temperature)
! x = Dry-Bulb Temperature of Combustion Inlet Air (C)
!

  Curve:Cubic,
    Capstone C65 Efficiency_vs_Temp,  !- Name
    1.0402217,               !- Coefficient1 Constant
    -0.0017314,              !- Coefficient2 x
    -6.497040E-05,           !- Coefficient3 x**2
    5.133175E-07,            !- Coefficient4 x**3
    -20.0,                   !- Minimum Value of x
    50.0;                    !- Maximum Value of x

!
! Electrical Efficiency Modifier Curve (function of part-load ratio)
! x = Part-Load Ratio (electrical load/full load electrical power output)
!

  Curve:Cubic,
    Capstone C65 Efficiency_vs_PLR,  !- Name
    0.215290,                !- Coefficient1 Constant
    2.561463,                !- Coefficient2 x
    -3.24613,                !- Coefficient3 x**2
    1.497306,                !- Coefficient4 x**3
    0.03,                    !- Minimum Value of x
    1.0;                     !- Maximum Value of x

!
! Elliott TA100
! References:
!  Direct correspondence with manufacturer personnel.
!  http://www.elliottmicroturbines.com
!  Data accounts for integrated gas pressure booster pump
!

  Generator:MicroTurbine,
    Elliott TA100,           !- Name
    100000,                  !- Reference Electrical Power Output {W}
    40000,                   !- Minimum Full Load Electrical Power Output {W}
    100000,                  !- Maximum Full Load Electrical Power Output {W}
    0.2874,                  !- Reference Electrical Efficiency Using Lower Heating Value
    15.0,                    !- Reference Combustion Air Inlet Temperature {C}
    0.00638,                 !- Reference Combustion Air Inlet Humidity Ratio {kgWater/kgDryAir}
    0.0,                     !- Reference Elevation {m}
    Elliott TA100 Power_vs_Temp_Elev,  !- Electrical Power Function of Temperature and Elevation Curve Name
    Elliott TA100 Efficiency_vs_Temp,  !- Electrical Efficiency Function of Temperature Curve Name
    Elliott TA100 Efficiency_vs_PLR,  !- Electrical Efficiency Function of Part Load Ratio Curve Name
    NaturalGas,              !- Fuel Type
    50000,                   !- Fuel Higher Heating Value {kJ/kg}
    45450,                   !- Fuel Lower Heating Value {kJ/kg}
    300,                     !- Standby Power {W}
    0;                       !- Ancillary Power {W}

!
! Curve set (3 Curves):
!
! Electrical Power Modifier Curve (function of temperature and elevation)
! x = Dry-Bulb Temperature of Combustion Inlet Air (C) and y = Elevation (meters)
!
!  Elevation data not available from manufacturer.
!  Assuming linear reduction of 3.4% per 1000 ft (305 m) elevation
!  per Microturbine Technology Characterization for the US Environmental
!  Protection Agency, Energy Nexus Group, March 2002

  Curve:Biquadratic,
    Elliott TA100 Power_vs_Temp_Elev,  !- Name
    1.23063,                 !- Coefficient1 Constant
    -0.01258,                !- Coefficient2 x
    0.0,                     !- Coefficient3 x**2
    -1.11475E-04,            !- Coefficient4 y
    0.0,                     !- Coefficient5 y**2
    0.0,                     !- Coefficient6 x*y
    -7.0,                    !- Minimum Value of x
    50.0,                    !- Maximum Value of x
    0.0,                     !- Minimum Value of y
    3050.;                   !- Maximum Value of y

!
! Electrical Efficiency Modifier Curve (function of temperature)
! x = Dry-Bulb Temperature of Combustion Inlet Air (C)
!

  Curve:Cubic,
    Elliott TA100 Efficiency_vs_Temp,  !- Name
    1.0021679,               !- Coefficient1 Constant
    8.89497E-04,             !- Coefficient2 x
    -7.06607E-05,            !- Coefficient3 x**2
    -6.98114E-07,            !- Coefficient4 x**3
    -7.0,                    !- Minimum Value of x
    50.0;                    !- Maximum Value of x

!
! Electrical Efficiency Modifier Curve (function of part-load ratio)
! x = Part-Load Ratio (electrical load/full load electrical power output)
!

  Curve:Cubic,
    Elliott TA100 Efficiency_vs_PLR,  !- Name
    -1.0547119E-15,          !- Coefficient1 Constant
    1.91926871211,           !- Coefficient2 x
    -1.14135760342,          !- Coefficient3 x**2
    0.222088891305,          !- Coefficient4 x**3
    0.0001,                  !- Minimum Value of x
    1.0;                     !- Maximum Value of x

!
! Ingersoll Rand MT70
! References:
!  Website materials (June 2007) and direct correspondence with manufacturer personnel.
!  http://energy.ingersollrand.com
!  Data accounts for integrated gas pressure booster pump
!

  Generator:MicroTurbine,
    Ingersoll Rand MT70,     !- Name
    70000,                   !- Reference Electrical Power Output {W}
    32591,                   !- Minimum Full Load Electrical Power Output {W}
    90000,                   !- Maximum Full Load Electrical Power Output {W}
    0.28,                    !- Reference Electrical Efficiency Using Lower Heating Value
    15.0,                    !- Reference Combustion Air Inlet Temperature {C}
    0.00638,                 !- Reference Combustion Air Inlet Humidity Ratio {kgWater/kgDryAir}
    0.0,                     !- Reference Elevation {m}
    Ingersoll Rand MT70 Power_vs_Temp_Elev,  !- Electrical Power Function of Temperature and Elevation Curve Name
    Ingersoll Rand MT70 Efficiency_vs_Temp,  !- Electrical Efficiency Function of Temperature Curve Name
    Ingersoll Rand MT70 Efficiency_vs_PLR,  !- Electrical Efficiency Function of Part Load Ratio Curve Name
    NaturalGas,              !- Fuel Type
    50000,                   !- Fuel Higher Heating Value {kJ/kg}
    45450,                   !- Fuel Lower Heating Value {kJ/kg}
    500,                     !- Standby Power {W}
    0;                       !- Ancillary Power {W}

!
! Curve set (3 Curves):
!
! Electrical Power Modifier Curve (function of temperature and elevation)
! x = Dry-Bulb Temperature of Combustion Inlet Air (C) and y = Elevation (meters)
!
!  Linear reduction of 3.5% per 1000 ft (305 m) elevation

  Curve:Biquadratic,
    Ingersoll Rand MT70 Power_vs_Temp_Elev,  !- Name
    1.1100093,               !- Coefficient1 Constant
    -8.959532E-03,           !- Coefficient2 x
    1.433197E-05,            !- Coefficient3 x**2
    -1.14754E-04,            !- Coefficient4 y
    0.0,                     !- Coefficient5 y**2
    0.0,                     !- Coefficient6 x*y
    -17.8,                   !- Minimum Value of x
    46.1,                    !- Maximum Value of x
    0.0,                     !- Minimum Value of y
    3050.;                   !- Maximum Value of y

!
! Electrical Efficiency Modifier Curve (function of temperature)
! x = Dry-Bulb Temperature of Combustion Inlet Air (C)
!

  Curve:Quadratic,
    Ingersoll Rand MT70 Efficiency_vs_Temp,  !- Name
    1.0260503,               !- Coefficient1 Constant
    -1.68174E-03,            !- Coefficient2 x
    -1.11640E-05,            !- Coefficient3 x**2
    -17.8,                   !- Minimum Value of x
    46.1;                    !- Maximum Value of x

!
! Electrical Efficiency Modifier Curve (function of part-load ratio)
! x = Part-Load Ratio (electrical load/full load electrical power output)
!

  Curve:Cubic,
    Ingersoll Rand MT70 Efficiency_vs_PLR,  !- Name
    0.0,                     !- Coefficient1 Constant
    2.96440584,              !- Coefficient2 x
    -3.157155,               !- Coefficient3 x**2
    1.19274913,              !- Coefficient4 x**3
    0.5,                     !- Minimum Value of x
    1.0;                     !- Maximum Value of x

!
! Ingersoll Rand MT250
! References:
!  Website materials (June 2007) and direct correspondence with manufacturer personnel.
!  http://energy.ingersollrand.com
!  Data accounts for integrated gas pressure booster pump
!

  Generator:MicroTurbine,
    Ingersoll Rand MT250,    !- Name
    250000,                  !- Reference Electrical Power Output {W}
    110000,                  !- Minimum Full Load Electrical Power Output {W}
    300000,                  !- Maximum Full Load Electrical Power Output {W}
    0.29,                    !- Reference Electrical Efficiency Using Lower Heating Value
    15.0,                    !- Reference Combustion Air Inlet Temperature {C}
    0.00638,                 !- Reference Combustion Air Inlet Humidity Ratio {kgWater/kgDryAir}
    0.0,                     !- Reference Elevation {m}
    Ingersoll Rand MT250 Power_vs_Temp_Elev,  !- Electrical Power Function of Temperature and Elevation Curve Name
    Ingersoll Rand MT250 Efficiency_vs_Temp,  !- Electrical Efficiency Function of Temperature Curve Name
    Ingersoll Rand MT250 Efficiency_vs_PLR,  !- Electrical Efficiency Function of Part Load Ratio Curve Name
    NaturalGas,              !- Fuel Type
    50000,                   !- Fuel Higher Heating Value {kJ/kg}
    45450,                   !- Fuel Lower Heating Value {kJ/kg}
    1500,                    !- Standby Power {W}
    0;                       !- Ancillary Power {W}

!
! Curve set (3 Curves):
!
! Electrical Power Modifier Curve (function of temperature and elevation)
! x = Dry-Bulb Temperature of Combustion Inlet Air (C) and y = Elevation (meters)
!
!  Linear reduction of 3.5% per 1000 ft (305 m) elevation

  Curve:Biquadratic,
    Ingersoll Rand MT250 Power_vs_Temp_Elev,  !- Name
    1.073797,                !- Coefficient1 Constant
    -6.74610E-03,            !- Coefficient2 x
    -4.12856E-05,            !- Coefficient3 x**2
    -1.14754E-04,            !- Coefficient4 y
    0.0,                     !- Coefficient5 y**2
    0.0,                     !- Coefficient6 x*y
    -17.8,                   !- Minimum Value of x
    46.1,                    !- Maximum Value of x
    0.0,                     !- Minimum Value of y
    3050.;                   !- Maximum Value of y

!
! Electrical Efficiency Modifier Curve (function of temperature)
! x = Dry-Bulb Temperature of Combustion Inlet Air (C)
!

  Curve:Cubic,
    Ingersoll Rand MT250 Efficiency_vs_Temp,  !- Name
    1.045428,                !- Coefficient1 Constant
    -1.98019E-03,            !- Coefficient2 x
    -7.65274E-05,            !- Coefficient3 x**2
    7.31154E-07,             !- Coefficient4 x**3
    -17.8,                   !- Minimum Value of x
    46.1;                    !- Maximum Value of x

!
! Electrical Efficiency Modifier Curve (function of part-load ratio)
! x = Part-Load Ratio (electrical load/full load electrical power output)
!

  Curve:Cubic,
    Ingersoll Rand MT250 Efficiency_vs_PLR,  !- Name
    0.0,                     !- Coefficient1 Constant
    0.884774,                !- Coefficient2 x
    1.023073,                !- Coefficient3 x**2
    -0.907847,               !- Coefficient4 x**3
    0.5,                     !- Minimum Value of x
    1.0;                     !- Maximum Value of x