{

"tables": {
  "curves": {
    "refs": [
      "assumption"
    ],
    "table": [
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit CCAPFT curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "BiQuadratic",
        "dependent_variable": "CCAPFT",
        "independent_variable_1": "Tiwb",
        "independent_variable_2": "Todb",
        "coeff_1": 0.041806043,
        "coeff_2": 0.064040587,
        "coeff_3": -0.000556932,
        "coeff_4": 0.008407783,
        "coeff_5": -0.00010814,
        "coeff_6": -0.000333479,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 24.0,
        "minimum_independent_variable_2": -5.0,
        "maximum_independent_variable_2": 43.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Cooling capacity ratio vs temperatures for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit CCAPFFF curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "Quadratic",
        "dependent_variable": "CCAPFFF",
        "independent_variable_1": "FlowRatio",
        "coeff_1": 0.8,
        "coeff_2": 0.2,
        "coeff_3": 0.0,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.5,
        "maximum_independent_variable_1": 1.5,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "OpenStudio default Cooling capacity ratio vs flow ratio"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit CEIRFT curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "BiQuadratic",
        "dependent_variable": "CEIRFT",
        "independent_variable_1": "Tiwb",
        "independent_variable_2": "Todb",
        "coeff_1": 1.511153861,
        "coeff_2": -0.059981125,
        "coeff_3": 0.000969596,
        "coeff_4": -0.00845921,
        "coeff_5": 0.000389855,
        "coeff_6": 0.000125837,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 24.0,
        "minimum_independent_variable_2": -5.0,
        "maximum_independent_variable_2": 43.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Cooling Energy-Input Ratio vs temperatures for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit CEIRFFF curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "Quadratic",
        "dependent_variable": "CEIRFFF",
        "independent_variable_1": "FlowRatio",
        "coeff_1": 1.0,
        "coeff_2": 0.0,
        "coeff_3": 0.0,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "OpenStudio default for Cooling Energy-Input Ratio vs flow ratio"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit CPLFFPLR curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "MultiVariableLookupTable",
        "number_independent_variables": 1,
        "interpolation_method": "LinearInterpolationOfTable",
        "number_of_interpolation_points": 2,
        "curve_type": "cubic",
        "normalization_reference": 1.0,
        "output_unit_type": "Dimensionless",
        "data_point1": "0.1,0.865",
        "data_point2": "0.2,0.88",
        "data_point3": "0.3,0.895",
        "data_point4": "0.4,0.91",
        "data_point5": "0.5,0.951",
        "data_point6": "0.556,0.964",
        "data_point7": "0.694,0.999",
        "data_point8": "0.833,1.003",
        "data_point9": "0.972,0.997",
        "data_point10": "1.0,1.000",
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "input_unit_type_x1": "Dimensionless",
        "notes": "Cooling part-load factor vs part-load ratio for Mitsubishi Hyper Heating VRF unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit HCAPFT curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "BiQuadratic",
        "dependent_variable": "HCAPFT",
        "independent_variable_1": "Tidb",
        "independent_variable_2": "Towb",
        "coeff_1": 1.042427028,
        "coeff_2": 0.032023437,
        "coeff_3": -0.00158028,
        "coeff_4": 0.025578062,
        "coeff_5": -0.000168303,
        "coeff_6": -0.001037712,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 27.2,
        "minimum_independent_variable_2": -25.0,
        "maximum_independent_variable_2": 15.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Heating capacity ratio vs temperatures for Mitsubishi Hyper Heating VRF unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit HCAPFFF curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "Quadratic",
        "dependent_variable": "HCAPFFF",
        "independent_variable_1": "FlowRatio",
        "coeff_1": 0.8,
        "coeff_2": 0.2,
        "coeff_3": 0.0,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.5,
        "maximum_independent_variable_1": 1.5,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "OpenStudio default for heating capacity ratio vs flow ratio"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit HEIRFT curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "BiQuadratic",
        "dependent_variable": "HEIRFT",
        "independent_variable_1": "Tidb",
        "independent_variable_2": "Towb",
        "coeff_1": 1.224599145,
        "coeff_2": 0.005362596,
        "coeff_3": -0.000269902,
        "coeff_4": -0.041582393,
        "coeff_5": 0.000500483,
        "coeff_6": 0.000352842,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 27.2,
        "minimum_independent_variable_2": -25.0,
        "maximum_independent_variable_2": 15.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Heating Energy-Input Ratio vs temperatures for Mitsubishi Hyper Heating VRF unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit HEIRFFF curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "Quadratic",
        "dependent_variable": "HEIRFFF",
        "independent_variable_1": "FlowRatio",
        "coeff_1": 1.0,
        "coeff_2": 0.0,
        "coeff_3": 0.0,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "OpenStudio default for Heating Energy-Input Ratio vs flow ratio"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit HPLFFPLR curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "MultiVariableLookupTable",
        "number_independent_variables": 1,
        "interpolation_method": "LinearInterpolationOfTable",
        "number_of_interpolation_points": 2,
        "curve_type": "cubic",
        "normalization_reference": 1.0,
        "output_unit_type": "Dimensionless",
        "data_point1": "0.1,0.865",
        "data_point2": "0.2,0.88",
        "data_point3": "0.3,0.895",
        "data_point4": "0.4,0.91",
        "data_point5": "0.5,0.923",
        "data_point6": "0.555,0.943",
        "data_point7": "0.694,0.969",
        "data_point8": "0.833,0.997",
        "data_point9": "1.0,1.000",
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "input_unit_type_x1": "Dimensionless",
        "notes": "Heating part-load factor vs part-load ratio for Mitsubishi Hyper Heating VRF unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit Defrost HEIRFT curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "MultiVariableLookupTable",
        "number_independent_variables": 2,
        "interpolation_method": "LinearInterpolationOfTable",
        "number_of_interpolation_points": 2,
        "curve_type": "BiQuadratic",
        "normalization_reference": 1.0,
        "output_unit_type": "Dimensionless",
        "data_point1": "15.0,-25,1.0",
        "data_point2": "15.0,-10.0,1.0",
        "data_point3": "15.0,-8.0,1.0",
        "data_point4": "15.0,-6.0,1.0",
        "data_point5": "15.0,-4.0,1.0",
        "data_point6": "15.0,-2.0,1.0",
        "data_point7": "15.0,0.0,1.0",
        "data_point8": "15.0,1.0,1.0",
        "data_point9": "15.0,2.0,1.0",
        "data_point10": "15.0,4.0,1.0",
        "data_point11": "15.0,6.0,1.0",
        "data_point12": "27.2,-25,1.0",
        "data_point13": "27.2,-10.0,1.0",
        "data_point14": "27.2,-8.0,1.0",
        "data_point15": "27.2,-6.0,1.0",
        "data_point16": "27.2,-4.0,1.0",
        "data_point17": "27.2,-2.0,1.0",
        "data_point18": "27.2,0.0,1.0",
        "data_point19": "27.2,1.0,1.0",
        "data_point20": "27.2,2.0,1.0",
        "data_point21": "27.2,4.0,1.0",
        "data_point22": "27.2,6.0,1.0",
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 27.2,
        "input_unit_type_x1": "Temperature",
        "minimum_independent_variable_2": -25.0,
        "maximum_independent_variable_2": 6.0,
        "input_unit_type_x2": "Temperature",
        "notes": "Defrost EIR correction curve for Mitsubishi Hyper Heating unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit Low CCAPFT curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "BiQuadratic",
        "dependent_variable": "CCAPFT",
        "independent_variable_1": "Tiwb",
        "independent_variable_2": "Todb",
        "coeff_1": 0.00653214,
        "coeff_2": 0.070196324,
        "coeff_3": -0.000779728,
        "coeff_4": 9.18264E-05,
        "coeff_5": -3.53531E-06,
        "coeff_6": -1.10985E-06,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 24.0,
        "minimum_independent_variable_2": -5.0,
        "maximum_independent_variable_2": 27.2,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Low cooling capacity ratio vs temperatures for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit CCAPFT Boundary curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "Cubic",
        "dependent_variable": "Tiwb",
        "independent_variable_1": "Todb",
        "coeff_1": 94.997,
        "coeff_2": -9.7363,
        "coeff_3": 0.4601,
        "coeff_4": -0.0075,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 11.0,
        "maximum_independent_variable_1": 30.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Boundary curve for cooling capacity ratio vs temperatures for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit High CCAPFT curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "BiQuadratic",
        "dependent_variable": "CCAPFT",
        "independent_variable_1": "Tiwb",
        "independent_variable_2": "Todb",
        "coeff_1": 0.024136088,
        "coeff_2": 0.068050178,
        "coeff_3": -0.000323642,
        "coeff_4": 0.008051387,
        "coeff_5": 1.58197E-06,
        "coeff_6": -0.000740208,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 24.0,
        "minimum_independent_variable_2": -5.0,
        "maximum_independent_variable_2": 43.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "High cooling capacity ratio vs temperatures for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit Low CEIRFT curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "BiQuadratic",
        "dependent_variable": "CEIRFT",
        "independent_variable_1": "Tiwb",
        "independent_variable_2": "Todb",
        "coeff_1": 1.632532615,
        "coeff_2": -0.073149266,
        "coeff_3": 0.00133255,
        "coeff_4": 0.002937429,
        "coeff_5": 2.96627E-07,
        "coeff_6": -7.89287E-05,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 23.9,
        "minimum_independent_variable_2": -5.0,
        "maximum_independent_variable_2": 27.2,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Low cooling Energy-Input Ratio as a functions of temperatures for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit CEIRFT Boundary curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "Cubic",
        "dependent_variable": "Tiwb",
        "independent_variable_1": "Todb",
        "coeff_1": 94.997,
        "coeff_2": -9.7363,
        "coeff_3": 0.4601,
        "coeff_4": -0.0075,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 24.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "OpenStudio default for boundary curve for cooling Energy-Input Ratio vs temperatures"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit High CEIRFT curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "BiQuadratic",
        "dependent_variable": "CEIRFT",
        "independent_variable_1": "Tiwb",
        "independent_variable_2": "Todb",
        "coeff_1": 0.633503459,
        "coeff_2": -0.022077797,
        "coeff_3": 0.000322604,
        "coeff_4": 0.017666739,
        "coeff_5": 0.000151197,
        "coeff_6": -0.000204718,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 23.9,
        "minimum_independent_variable_2": 22.7,
        "maximum_independent_variable_2": 43.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "High cooling Energy-Input Ratio vs temperatures for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit Low CEIRFPLR curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "Cubic",
        "dependent_variable": "CEIR",
        "independent_variable_1": "PLR",
        "coeff_1": 0.2021,
        "coeff_2": 0.464,
        "coeff_3": 0.4081,
        "coeff_4": -0.0723,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.5,
        "maximum_independent_variable_1": 1.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Low cooling Energy-Input Ratio vs part-load ratio for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit High CEIRFPLR curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "Cubic",
        "dependent_variable": "CEIR",
        "independent_variable_1": "PLR",
        "coeff_1": 2.0857,
        "coeff_2": -3.1154,
        "coeff_3": 2.9151,
        "coeff_4": -0.8855,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 1.0,
        "maximum_independent_variable_1": 1.5,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "High cooling Energy-Input Ratio vs part-load ratio for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit CCR curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "Quadratic",
        "dependent_variable": "CCR",
        "independent_variable_1": "PLR",
        "coeff_1": 0.6216,
        "coeff_2": 0.4732,
        "coeff_3": -0.0952,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 1.0,
        "maximum_independent_variable_1": 1.3,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Cooling combination ratio vs part-load ratio for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit on-off CPLFFPLR curve",
        "category": "VRF Outdoor Unit Cooling",
        "form": "Cubic",
        "dependent_variable": "PLF",
        "independent_variable_1": "PLR",
        "coeff_1": 0.85,
        "coeff_2": 0.15,
        "coeff_3": 0.0,
        "coeff_4": 0.0,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Cooling part-load factor vs part-load ratio (OpenStudio default)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit CCAPFPL curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "MultiVariableLookupTable",
        "number_independent_variables": 2,
        "interpolation_method": "LinearInterpolationOfTable",
        "number_of_interpolation_points": 2,
        "curve_type": "BiQuadratic",
        "normalization_reference": 1.0,
        "output_unit_type": "Dimensionless",
        "data_point1": "7.625,0.5,1.0",
        "data_point2": "7.625,0.75,1.0",
        "data_point3": "7.625,1.0,1.0",
        "data_point4": "7.625,1.3,1.0",
        "data_point5": "61.0,0.5,1.0",
        "data_point6": "61.0,0.75,1.0",
        "data_point7": "61.0,1.0,0.9075",
        "data_point8": "61.0,1.3,0.9025",
        "data_point9": "91.5,0.5,1.0",
        "data_point10": "91.5,0.75,0.955",
        "data_point11": "91.5,1.0,0.86",
        "data_point12": "91.5,1.3,0.855",
        "data_point13": "122.0,0.5,1.0",
        "data_point14": "122.0,0.75,0.905",
        "data_point15": "122.0,1.0,0.82",
        "data_point16": "122.0,1.3,0.81",
        "data_point17": "175.375,0.5,1.0",
        "data_point18": "175.375,0.75,0.83",
        "data_point19": "175.375,1.0,0.76",
        "data_point20": "175.375,1.3,0.74",
        "minimum_independent_variable_1": 7.625,
        "maximum_independent_variable_1": 175.375,
        "input_unit_type_x1": "Length",
        "minimum_independent_variable_2": 0.5,
        "maximum_independent_variable_2": 1.3,
        "input_unit_type_x2": "Dimensionless",
        "notes": "Cooling capacity correction for pipe length for Mitsubishi Hyper Heating curve (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit Low HCAPFT curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "BiQuadratic",
        "dependent_variable": "HCAPFT",
        "independent_variable_1": "Tidb",
        "independent_variable_2": "Towb",
        "coeff_1": 1.29450313,
        "coeff_2": 0.002801032,
        "coeff_3": 5.16831E-05,
        "coeff_4": 0.021017135,
        "coeff_5": -1.72877E-06,
        "coeff_6": 0.000190881,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 27.2,
        "minimum_independent_variable_2": -25.0,
        "maximum_independent_variable_2": -8.3,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Low heating capacity vs temperatures for Mitsubishi Hyper Heating VRF unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit HCAPFT Boundary curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "Cubic",
        "dependent_variable": "Tidb",
        "independent_variable_1": "Towb",
        "coeff_1": -4.0154,
        "coeff_2": 0.3263,
        "coeff_3": -0.0406,
        "coeff_4": 0.0,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 27.2,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "OpenStudio default for boundary curve for heating capacity ratio vs temperature"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit High HCAPFT curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "BiQuadratic",
        "dependent_variable": "HCAPFT",
        "independent_variable_1": "Tidb",
        "independent_variable_2": "Towb",
        "coeff_1": 1.164596543,
        "coeff_2": 0.022643713,
        "coeff_3": -0.001438018,
        "coeff_4": 0.011600401,
        "coeff_5": 1.95695E-05,
        "coeff_6": -0.000445733,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 27.2,
        "minimum_independent_variable_2": -25.0,
        "maximum_independent_variable_2": 15.5,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "High heating capacity ratio vs temperatures for Mitsubishi Hyper Heating VRF unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit Low HEIRFT curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "BiQuadratic",
        "dependent_variable": "HEIRFT",
        "independent_variable_1": "Tidb",
        "independent_variable_2": "Towb",
        "coeff_1": 0.073533104,
        "coeff_2": 0.172343385,
        "coeff_3": -0.004726706,
        "coeff_4": 0.007970862,
        "coeff_5": 0.001282742,
        "coeff_6": -0.00049881,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 27.2,
        "minimum_independent_variable_2": -25.0,
        "maximum_independent_variable_2": -8.3,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Low heating Energy-Input Ratio vs temperatures for Mitsubishi Hyper Heating VRF unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit HEIRFT Boundary curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "Cubic",
        "dependent_variable": "Tidb",
        "independent_variable_1": "Towb",
        "coeff_1": -4.0154,
        "coeff_2": 0.3263,
        "coeff_3": -0.0406,
        "coeff_4": 0.0,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 27.2,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "OpenStudio default for boundary curve for heating Energy-Input Ratio vs temperature"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit High HEIRFT curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "BiQuadratic",
        "dependent_variable": "HEIRFT",
        "independent_variable_1": "Tidb",
        "independent_variable_2": "Towb",
        "coeff_1":  1.698997002,
        "coeff_2": -0.040659872,
        "coeff_3": 0.000787154,
        "coeff_4": -0.050125467,
        "coeff_5": 0.000535991,
        "coeff_6": 0.000724561,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 15.0,
        "maximum_independent_variable_1": 27.2,
        "minimum_independent_variable_2": -25.0,
        "maximum_independent_variable_2": 15.5,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "High heating Energy-InputRatio vs temperatures for Mitsubishi Hyper Heating VRF unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit Low HEIRFPLR curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "Cubic",
        "dependent_variable": "HEIR",
        "independent_variable_1": "PLR",
        "coeff_1": -0.123,
        "coeff_2": 1.8753,
        "coeff_3": -1.4444,
        "coeff_4": 0.6918,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.5,
        "maximum_independent_variable_1": 1.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Low heating Energy-Input Ratio vs part-load ratio for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit High HEIRFPLR curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "Cubic",
        "dependent_variable": "HEIR",
        "independent_variable_1": "PLR",
        "coeff_1": -8.0149,
        "coeff_2": 24.269,
        "coeff_3": -21.472,
        "coeff_4": 6.2179,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 1.0,
        "maximum_independent_variable_1": 1.3,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "High heating Energy-Input Ratio vs part-load ratio for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit HCR curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "Quadratic",
        "dependent_variable": "HCR",
        "independent_variable_1": "PLR",
        "coeff_1": 0.9016,
        "coeff_2": 0.1214,
        "coeff_3": -0.0229,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 1.0,
        "maximum_independent_variable_1": 1.3,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Heating combination ratio vs part-load ratio for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit on-off HPLFFPLR curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "Cubic",
        "dependent_variable": "HPLF",
        "independent_variable_1": "PLR",
        "coeff_1": 0.85,
        "coeff_2": 0.15,
        "coeff_3": 0.0,
        "coeff_4": 0.0,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Heating part-load factor vs part-load ratio (OpenStudio default)"
      },
      {
        "name": "Mitsubishi Hyper Heating VRF Outdoor Unit HCAPFPL curve",
        "category": "VRF Outdoor Unit Heating",
        "form": "Cubic",
        "dependent_variable": "HCAP",
        "independent_variable_1": "PL",
        "coeff_1": 1.007,
        "coeff_2": -0.0008,
        "coeff_3": 0.000004,
        "coeff_4": -0.00000001,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 7.625,
        "maximum_independent_variable_1": 175.375,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Heating capacity ratio vs pipe length for Mitsubishi Hyper Heating VRF Unit (model: PUHY-HP72)"
      },
      {
        "name": "BOILER-EFFPLR-COND-NECB2011",
        "category": "Boiler",
        "form": "Cubic",
        "dependent_variable": "FIRRatio",
        "independent_variable_1": "QRatio",
        "independent_variable_2": null,
        "coeff_1": 1.0186,
        "coeff_2": 0.2426,
        "coeff_3": -0.5059,
        "coeff_4": 0.2465,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-A (2) for condensing boilers.  Converted EIR curve to PLF via curve fit."
      },
      {
        "name": "BOILER-EFFPLR-COND-VIESSMANN",
        "category": "Boiler",
        "form": "BiQuadratic",
        "dependent_variable": "FIRRatio",
        "independent_variable_1": "QRatio",
        "independent_variable_2": "TEnteringBoiler",
        "coeff_1": 1.067091396,
        "coeff_2": -0.080046749,
        "coeff_3": 0.078581329,
        "coeff_4": 0.000365501,
        "coeff_5": -4.5243E-06,
        "coeff_6": -0.002185834,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.3,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": 40,
        "maximum_independent_variable_2": 90,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From analysis by Kamel Haddad based on Viessmann Vitocrossal 300 CT3-17 condensing boiler."
      },
      {
        "name": "FURNACE-EFFPLR-COND-NECB2011",
        "category": "Gas Heating Coil",
        "form": "Cubic",
        "dependent_variable": "FIRRatio",
        "independent_variable_1": "QRatio",
        "independent_variable_2": null,
        "coeff_1": 1.0186,
        "coeff_2": 0.2426,
        "coeff_3": -0.5059,
        "coeff_4": 0.2465,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-A (4) for condensing furnaces.  Converted EIR curve to PLF via curve fit."
      },
      {
        "name": "SWH-EFFFPLR-NECB2011",
        "category": "Water Heater",
        "form": "Cubic",
        "dependent_variable": "FIRRatio",
        "independent_variable_1": "QRatio",
        "independent_variable_2": null,
        "coeff_1": 0.7576,
        "coeff_2": 1.0071,
        "coeff_3": -1.4443,
        "coeff_4": 0.6844,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-G (2).  Converted EIR curve to PLF via curve fit.  Note this is treating the Water Heater as a boiler not a tank."
      },
      {
        "name": "ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD CAPFT",
        "category": "ElectricEIRChiller",
        "form": "BiQuadratic",
        "dependent_variable": "CoolingCapacity",
        "independent_variable_1": "LeavingChilledWaterTemperature",
        "independent_variable_2": "EnteringCondenserWaterTemperature",
        "coeff_1": 9.797101E-01,
        "coeff_2": -2.895701E-03,
        "coeff_3": -8.970718E-04,
        "coeff_4": 1.031440E-02,
        "coeff_5": -7.431651E-04,
        "coeff_6": 1.453508E-03,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.56,
        "maximum_independent_variable_1": 10.00,
        "minimum_independent_variable_2": 11.25,
        "maximum_independent_variable_2": 23.89,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD EIRFT",
        "category": "ElectricEIRChiller",
        "form": "BiQuadratic",
        "dependent_variable": "ElectricInputToCoolingOutputRatio",
        "independent_variable_1": "LeavingChilledWaterTemperature",
        "independent_variable_2": "EnteringCondenserWaterTemperature",
        "coeff_1": 9.946139E-01,
        "coeff_2": -4.829399E-02,
        "coeff_3": 4.674277E-04,
        "coeff_4": -1.158726E-03,
        "coeff_5": 5.762583E-04,
        "coeff_6": 2.148192E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.56,
        "maximum_independent_variable_1": 10.00,
        "minimum_independent_variable_2": 11.25,
        "maximum_independent_variable_2": 23.89,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller Carrier 19XR 742kW/5.42COP/VSD EIRFPLR",
        "category": "ElectricEIRChiller",
        "form": "Quadratic",
        "dependent_variable": "ElectricInputToCoolingOutputRatio",
        "independent_variable_1": "PartLoadRatio",
        "independent_variable_2": null,
        "coeff_1": 1.202277E-01,
        "coeff_2": 1.396384E-01,
        "coeff_3": 7.394038E-01,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.19,
        "maximum_independent_variable_1": 1.02,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD CAPFT",
        "category": "ElectricEIRChiller",
        "form": "BiQuadratic",
        "dependent_variable": "CoolingCapacity",
        "independent_variable_1": "LeavingChilledWaterTemperature",
        "independent_variable_2": "EnteringCondenserWaterTemperature",
        "coeff_1": 4.549428E-01,
        "coeff_2": 2.748161E-02,
        "coeff_3": -4.298342E-03,
        "coeff_4": 4.363928E-02,
        "coeff_5": -1.352509E-03,
        "coeff_6": 2.964225E-03,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 4.44,
        "maximum_independent_variable_1": 8.89,
        "minimum_independent_variable_2": 12.78,
        "maximum_independent_variable_2": 29.44,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD EIRFT",
        "category": "ElectricEIRChiller",
        "form": "BiQuadratic",
        "dependent_variable": "CoolingCapacity",
        "independent_variable_1": "LeavingChilledWaterTemperature",
        "independent_variable_2": "EnteringCondenserWaterTemperature",
        "coeff_1": 4.561990E-01,
        "coeff_2": -3.333063E-02,
        "coeff_3": -1.763576E-03,
        "coeff_4": 5.624520E-02,
        "coeff_5": -8.535085E-05,
        "coeff_6": 3.567604E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 4.44,
        "maximum_independent_variable_1": 8.89,
        "minimum_independent_variable_2": 12.78,
        "maximum_independent_variable_2": 29.44,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller Trane CVHF 2567kW/11.77COP/VSD EIRFPLR",
        "category": "ElectricEIRChiller",
        "form": "Quadratic",
        "dependent_variable": "ElectricInputToCoolingOutputRatio",
        "independent_variable_1": "PartLoadRatio",
        "independent_variable_2": null,
        "coeff_1": 1.039419E-01,
        "coeff_2": 4.184975E-01,
        "coeff_3": 4.774210E-01,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.11,
        "maximum_independent_variable_1": 1.04,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller York YT 2233kW/9.54COP/VSD CAPFT",
        "category": "ElectricEIRChiller",
        "form": "BiQuadratic",
        "dependent_variable": "CoolingCapacity",
        "independent_variable_1": "LeavingChilledWaterTemperature",
        "independent_variable_2": "EnteringCondenserWaterTemperature",
        "coeff_1": 7.139071E-01,
        "coeff_2": -4.174477E-02,
        "coeff_3": 5.188589E-03,
        "coeff_4": 4.350540E-02,
        "coeff_5": -1.632005E-03,
        "coeff_6": 9.364594E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.56,
        "maximum_independent_variable_1": 8.89,
        "minimum_independent_variable_2": 12.78,
        "maximum_independent_variable_2": 29.44,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFT",
        "category": "ElectricEIRChiller",
        "form": "BiQuadratic",
        "dependent_variable": "CoolingCapacity",
        "independent_variable_1": "LeavingChilledWaterTemperature",
        "independent_variable_2": "EnteringCondenserWaterTemperature",
        "coeff_1": 7.145541E-01,
        "coeff_2": -1.074745E-02,
        "coeff_3": -1.010204E-03,
        "coeff_4": 3.081188E-02,
        "coeff_5": 1.061200E-04,
        "coeff_6": -4.325357E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.56,
        "maximum_independent_variable_1": 8.89,
        "minimum_independent_variable_2": 12.78,
        "maximum_independent_variable_2": 29.44,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFPLR",
        "category": "ElectricEIRChiller",
        "form": "Quadratic",
        "dependent_variable": "ElectricInputToCoolingOutputRatio",
        "independent_variable_1": "PartLoadRatio",
        "independent_variable_2": null,
        "coeff_1": 7.308728E-02,
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        "form": "BiQuadratic",
        "dependent_variable": "CoolingCapacity",
        "independent_variable_1": "LeavingChilledWaterTemperature",
        "independent_variable_2": "EnteringCondenserWaterTemperature",
        "coeff_1": 4.742518E-01,
        "coeff_2": -5.109937E-02,
        "coeff_3": -2.845323E-03,
        "coeff_4": 8.257997E-02,
        "coeff_5": -3.404799E-03,
        "coeff_6": 5.625321E-03,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 6.11,
        "maximum_independent_variable_1": 12.78,
        "minimum_independent_variable_2": 12.78,
        "maximum_independent_variable_2": 23.89,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD EIRFT",
        "category": "ElectricEIRChiller",
        "form": "BiQuadratic",
        "dependent_variable": "CoolingCapacity",
        "independent_variable_1": "LeavingChilledWaterTemperature",
        "independent_variable_2": "EnteringCondenserWaterTemperature",
        "coeff_1": 2.950574E-01,
        "coeff_2": -1.036684E-01,
        "coeff_3": -4.169567E-03,
        "coeff_4": 1.256790E-01,
        "coeff_5": -4.004203E-03,
        "coeff_6": 6.718687E-03,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 6.11,
        "maximum_independent_variable_1": 12.78,
        "minimum_independent_variable_2": 12.78,
        "maximum_independent_variable_2": 23.89,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller Carrier 19XR 1723kW/8.32COP/VSD EIRFPLR",
        "category": "ElectricEIRChiller",
        "form": "Quadratic",
        "dependent_variable": "ElectricInputToCoolingOutputRatio",
        "independent_variable_1": "PartLoadRatio",
        "independent_variable_2": null,
        "coeff_1": 2.374010E-01,
        "coeff_2": -1.796745E-01,
        "coeff_3": 9.441507E-01,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.18,
        "maximum_independent_variable_1": 1.04,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller York YT 2233kW/9.54COP/VSD CAPFT_2",
        "category": "ElectricEIRChiller",
        "form": "BiQuadratic",
        "dependent_variable": "CoolingCapacity",
        "independent_variable_1": "LeavingChilledWaterTemperature",
        "independent_variable_2": "EnteringCondenserWaterTemperature",
        "coeff_1": 7.585741E-01,
        "coeff_2": -5.127829E-02,
        "coeff_3": 5.848602E-03,
        "coeff_4": 4.235544E-02,
        "coeff_5": -1.606561E-03,
        "coeff_6": 9.364594E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.56,
        "maximum_independent_variable_1": 8.89,
        "minimum_independent_variable_2": 12.78,
        "maximum_independent_variable_2": 29.44,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFT_2",
        "category": "ElectricEIRChiller",
        "form": "BiQuadratic",
        "dependent_variable": "CoolingCapacity",
        "independent_variable_1": "LeavingChilledWaterTemperature",
        "independent_variable_2": "EnteringCondenserWaterTemperature",
        "coeff_1": 7.563409E-01,
        "coeff_2": -1.966623E-02,
        "coeff_3": -3.927494E-04,
        "coeff_4": 2.973607E-02,
        "coeff_5": 1.299230E-04,
        "coeff_6": -4.325357E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.56,
        "maximum_independent_variable_1": 8.89,
        "minimum_independent_variable_2": 12.78,
        "maximum_independent_variable_2": 29.44,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
        "name": "ElectricEIRChiller York YT 2233kW/9.54COP/VSD EIRFPLR_2",
        "category": "ElectricEIRChiller",
        "form": "Quadratic",
        "dependent_variable": "ElectricInputToCoolingOutputRatio",
        "independent_variable_1": "PartLoadRatio",
        "independent_variable_2": null,
        "coeff_1": 6.917141E-02,
        "coeff_2": 1.743339E-01,
        "coeff_3": 7.524059E-01,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.10,
        "maximum_independent_variable_1": 1.04,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Ref: E+/DataSets/Chillers.idf"
      },
      {
      "name": "DXHEAT-NECB2011-REF-CAPFT",
      "category": "DX Heating Coil",
      "form": "Cubic",
      "dependent_variable": "QRatio",
      "independent_variable_1": "Toadb",
      "independent_variable_2": null,
      "coeff_1": 0.729009,
      "coeff_2": 0.0319275,
      "coeff_3": 0.000136404,
      "coeff_4": -8.748e-06,
      "coeff_5": null,
      "coeff_6": null,
      "coeff_7": null,
      "coeff_8": null,
      "coeff_9": null,
      "coeff_10": null,
      "minimum_independent_variable_1": -20.0,
      "maximum_independent_variable_1": 20.0,
      "minimum_independent_variable_2": null,
      "maximum_independent_variable_2": null,
      "minimum_dependent_variable_output": null,
      "maximum_dependent_variable_output": null,
      "notes": "From NECB 2011 Table 8.4.4.21.-E (2).  Converted coefficients for deg. F to deg. C."
      },
      {
        "name": "DXHEAT-NECB2011-REF-CAPFFLOW",
        "category": "DX Heating Coil",
        "form": "Cubic",
        "dependent_variable": "QRatio",
        "independent_variable_1": "FlowRatio",
        "independent_variable_2": null,
        "coeff_1": 0.84,
        "coeff_2": 0.16,
        "coeff_3": 0.0,
        "coeff_4": 0.0,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.5,
        "maximum_independent_variable_1": 1.5,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Not supplied by NECB 2011 but required for EnergyPlus.  Used default curve coefficients from OpenStudio 2.8.1 DX Single Speed Heating Coil."
      },
      {
        "name": "DXHEAT-NECB2011-REF-EIRFT",
        "category": "DX Heating Coil",
        "form": "Cubic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "Toadb",
        "independent_variable_2": null,
        "coeff_1": 1.2183,
        "coeff_2": -0.03612,
        "coeff_3": 0.00142,
        "coeff_4": -2.68e-05,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": -20.0,
        "maximum_independent_variable_1": 20.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-E (6).  Converted coefficients for deg. F to deg. C."
      },
      {
        "name": "DXHEAT-NECB2011-REF-EIRFFLOW",
        "category": "DX Heating Coil",
        "form": "Quadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "FlowRatio",
        "independent_variable_2": null,
        "coeff_1": 1.3824,
        "coeff_2": -0.4336,
        "coeff_3": 0.0512,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Not supplied by NECB 2011 but required for EnergyPlus.  Used default curve coefficients from OpenStudio 2.8.1 DX Single Speed Heating Coil."
      },
      {
        "name": "DXHEAT-NECB2011-REF-PLFFPLR",
        "category": "DX Heating Coil",
        "form": "Cubic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "QRatio",
        "independent_variable_2": null,
        "coeff_1": 0.3696,
        "coeff_2": 2.3362,
        "coeff_3": -2.9577,
        "coeff_4": 1.2596,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.7,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-E (4).  Converted EIR curve to PLF via curve fit."
      },
      {
        "name": "DXHEAT-NECB2011-REF-Defrost-EIRFT",
        "category": "DX Heating Coil",
        "form": "BiQuadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "Toadb",
        "independent_variable_2": null,
        "coeff_1": 1.0,
        "coeff_2": 0.0,
        "coeff_3": 0.0,
        "coeff_4": 0.0,
        "coeff_5": 0.0,
        "coeff_6": 0.0,
        "coeff_7": 0.0,
        "coeff_8": 0.0,
        "coeff_9": 0.0,
        "coeff_10": 0.0,
        "minimum_independent_variable_1": 10.0,
        "maximum_independent_variable_1": 30.0,
        "minimum_independent_variable_2": -20.0,
        "maximum_independent_variable_2": 20.0,
        "minimum_dependent_variable_output": 0.0,
        "maximum_dependent_variable_output": 1.0,
        "notes": "No value given in NECB. Assume no correction for now"
      },
      {
        "name": "DXCOOL-NECB2011-REF-CAPFFLOW",
        "category": "DX Cooling Coil",
        "form": "Quadratic",
        "dependent_variable": "QRatio",
        "independent_variable_1": "FlowRatio",
        "independent_variable_2": null,
        "coeff_1": 0.8,
        "coeff_2": 0.2,
        "coeff_3": 0.0,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.5,
        "maximum_independent_variable_1": 1.5,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Not supplied by NECB 2011 but required for EnergyPlus.  Used default curve coefficients from OpenStudio 2.8.1 DX Single Speed Cooling Coil."
      },
      {
        "name": "DXCOOL-NECB2011-REF-CAPFT",
        "category": "DX Cooling Coil",
        "form": "BiQuadratic",
        "dependent_variable": "QRatio",
        "independent_variable_1": "Twb",
        "independent_variable_2": "Toadb",
        "coeff_1": 0.867905,
        "coeff_2": 0.0142459,
        "coeff_3": 0.00055436,
        "coeff_4": -0.0075575,
        "coeff_5": 3.3e-05,
        "coeff_6": -0.0001918,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 13.0,
        "maximum_independent_variable_1": 24.0,
        "minimum_independent_variable_2": 24.0,
        "maximum_independent_variable_2": 46.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-B (2).  Converted coefficients for deg. F to deg. C."
      },
      {
        "name": "DXCOOL-NECB2011-REF-COOLEIRFFLOW",
        "category": "DX Cooling Coil",
        "form": "Quadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "FlowRatio",
        "independent_variable_2": null,
        "coeff_1": 1.1552,
        "coeff_2": -0.1808,
        "coeff_3": 0.0256,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.5,
        "maximum_independent_variable_1": 1.5,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Not supplied by NECB 2011 but required for EnergyPlus.  Used default curve coefficients from OpenStudio 2.8.1 DX Single Speed Cooling Coil."
      },
      {
        "name": "DXCOOL-NECB2011-REF-COOLEIRFT",
        "category": "DX Cooling Coil",
        "form": "BiQuadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "Twb",
        "independent_variable_2": "Toadb",
        "coeff_1": 0.1141714,
        "coeff_2": 0.02818224,
        "coeff_3": -0.0004199,
        "coeff_4": 0.02141082,
        "coeff_5": 0.000161028,
        "coeff_6": -0.000679104,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 13.0,
        "maximum_independent_variable_1": 24.0,
        "minimum_independent_variable_2": 24.0,
        "maximum_independent_variable_2": 46.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-B (6).  Converted coefficients for deg. F to deg. C."
      },
      {
        "name": "DXCOOL-NECB2011-REF-COOLPLFFPLR",
        "category": "DX Cooling Coil",
        "form": "Cubic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "QRatio",
        "independent_variable_2": null,
        "coeff_1": 0.0277,
        "coeff_2": 4.9151,
        "coeff_3": -8.184,
        "coeff_4": 4.2702,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.7,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-B (4), curve modified to take into account how PLF is used in E+, and PLF ranges (> 0.7)"
      },
      {
        "name": "LENNOX_MODEL_L_ULTRA_HIGH_EFF_CPLFFPLR",
        "category": "DX Cooling Coil",
        "form": "Quadratic",
        "dependent_variable": "PLR",
        "independent_variable_1": "PLF",
        "independent_variable_2": null,
        "coeff_1": 1.0,
        "coeff_2": 0.0,
        "coeff_3": 0.0,
        "coeff_4": 0.0,
        "coeff_5": 0.0,
        "coeff_6": 0.0,
        "coeff_7": 0.0,
        "coeff_8": 0.0,
        "coeff_9": 0.0,
        "coeff_10": 0.0,
        "minimum_independent_variable_1": 0.7,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Lennox unit is variable speed. Assume no loss in efficiency at part load"
      },
      {
        "name": "LENNOX_MODEL_L_ULTRA_HIGH_EFF_CCAPFT",
        "category": "DX Cooling Coil",
        "form": "BiQuadratic",
        "dependent_variable": "CCAPFT",
        "independent_variable_1": "Tiwb",
        "independent_variable_2": "Todb",
        "coeff_1": 0.747794,
        "coeff_2": 0.0188493,
        "coeff_3": 0.000396126,
        "coeff_4": -0.000511066,
        "coeff_5": -0.0000501609,
        "coeff_6": -0.000223822,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 17.22,
        "maximum_independent_variable_1": 21.67,
        "minimum_independent_variable_2": 18.33,
        "maximum_independent_variable_2": 46.11,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Cooling capacity ratio vs temperatures for Lennox Ultra High Efficiency Packaged RTU Model LGM074U4P"
      },
      {
        "name": "LENNOX_MODEL_L_ULTRA_HIGH_EFF_CCAPFF",
        "category": "DX Cooling Coil",
        "form": "Quadratic",
        "dependent_variable": "CCAPFF",
        "independent_variable_1": "QRatio",
        "independent_variable_2": null,
        "coeff_1": 0.644345,
        "coeff_2": 0.574325,
        "coeff_3": -0.190780,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.7,
        "maximum_independent_variable_1": 1.07,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Cooling capacity ratio vs flow ratio for Lennox Ultra High Efficiency Packaged RTU Model LGM074U4P"
      },
      {
        "name": "LENNOX_MODEL_L_ULTRA_HIGH_EFF_CEIRFT",
        "category": "DX Cooling Coil",
        "form": "BiQuadratic",
        "dependent_variable": "CEIRFT",
        "independent_variable_1": "Tiwb",
        "independent_variable_2": "Todb",
        "coeff_1": 0.578281,
        "coeff_2": -0.0101485,
        "coeff_3": 0.000133429,
        "coeff_4": 0.0111856,
        "coeff_5": 0.000391576,
        "coeff_6": -0.000509367,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 17.22,
        "maximum_independent_variable_1": 21.67,
        "minimum_independent_variable_2": 18.33,
        "maximum_independent_variable_2": 46.11,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Cooling EIR ratio vs temperatures for Lennox Ultra High Efficiency Packaged RTU Model LGM074U4P"
      },
      {
        "name": "LENNOX_MODEL_L_ULTRA_HIGH_EFF_CEIRFF",
        "category": "DX Cooling Coil",
        "form": "Quadratic",
        "dependent_variable": "CEIRFF",
        "independent_variable_1": "QRatio",
        "independent_variable_2": null,
        "coeff_1": 1.325449,
        "coeff_2": -0.569492,
        "coeff_3": 0.204261,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.7,
        "maximum_independent_variable_1": 1.07,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "Cooling EIR ratio vs flow ratio for Lennox Ultra High Efficiency Packaged RTU Model LGM074U4P"
      },
      {
        "name": "HEATPUMP_WATERTOWATER_CCAPF",
        "category": "Heat Pump Water to Water",
        "form": "QuadLinear",
        "dependent_variable": "CCAPF",
        "coeff_1": -1.52030596,
        "coeff_2": 3.46625667,
        "coeff_3": -1.32267797,
        "coeff_4": 0.09395678,
        "coeff_5": 0.038975504,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_w": -100.0,
        "maximum_independent_variable_w": 100.0,
        "minimum_independent_variable_x": -100.0,
        "maximum_independent_variable_x": 100.0,
        "minimum_independent_variable_y": 0.0,
        "maximum_independent_variable_y": 100.0,
        "minimum_independent_variable_z": 0.0,
        "maximum_independent_variable_z": 100.0,
        "minimum_dependent_variable_output": 0.0,
        "maximum_dependent_variable_output": 38.0,
        "notes": "EnergyPlus sample cooling capacity curve for water to water heat pumps"
      },
      {
        "name": "HEATPUMP_WATERTOWATER_CPOWERF",
        "category": "Heat Pump Water to Water",
        "form": "QuadLinear",
        "dependent_variable": "CPOWERF",
        "coeff_1":-8.59564386,
        "coeff_2": 0.96265085,
        "coeff_3": 8.69489229,
        "coeff_4": 0.02501669,
        "coeff_5":-0.20132665,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_w": -100.0,
        "maximum_independent_variable_w": 100.0,
        "minimum_independent_variable_x": -100.0,
        "maximum_independent_variable_x": 100.0,
        "minimum_independent_variable_y": 0.0,
        "maximum_independent_variable_y": 100.0,
        "minimum_independent_variable_z": 0.0,
        "maximum_independent_variable_z": 100.0,
        "minimum_dependent_variable_output": 0.0,
        "maximum_dependent_variable_output": 38.0,
        "notes": "EnergyPlus sample cooling power curve for water to water heat pumps"
      },
      {
        "name": "HEATPUMP_WATERTOWATER_HCAPF",
        "category": "Heat Pump Water to Water",
        "form": "QuadLinear",
        "dependent_variable": "HCAPF",
        "coeff_1": -3.33491153,
        "coeff_2": -0.51451946,
        "coeff_3": 4.51592706,
        "coeff_4": 0.01797107,
        "coeff_5": 0.155797661,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_w": -100.0,
        "maximum_independent_variable_w": 100.0,
        "minimum_independent_variable_x": -100.0,
        "maximum_independent_variable_x": 100.0,
        "minimum_independent_variable_y": 0.0,
        "maximum_independent_variable_y": 100.0,
        "minimum_independent_variable_z": 0.0,
        "maximum_independent_variable_z": 100.0,
        "minimum_dependent_variable_output": 0.0,
        "maximum_dependent_variable_output": 38.0,
        "notes": "EnergyPlus sample heating capacity curve for water to water heat pumps"
      },
      {
        "name": "HEATPUMP_WATERTOWATER_HPOWERF",
        "category": "Heat Pump Water to Water",
        "form": "QuadLinear",
        "dependent_variable": "HPOWERF",
        "coeff_1": -8.93121751,
        "coeff_2": 8.57035762,
        "coeff_3": 1.29660976,
        "coeff_4":-0.21629222,
        "coeff_5": 0.033862378,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_w": -100.0,
        "maximum_independent_variable_w": 100.0,
        "minimum_independent_variable_x": -100.0,
        "maximum_independent_variable_x": 100.0,
        "minimum_independent_variable_y": 0.0,
        "maximum_independent_variable_y": 100.0,
        "minimum_independent_variable_z": 0.0,
        "maximum_independent_variable_z": 100.0,
        "minimum_dependent_variable_output": 0.0,
        "maximum_dependent_variable_output": 38.0,
        "notes": "EnergyPlus sample heating power curve for water to water heat pumps"
      },
      {
        "name": "AirCooled_Scroll_CAPFT_NECB2011",
        "category": "Electric Chiller",
        "form": "BiQuadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "Tchws",
        "independent_variable_2": "Toadb",
        "coeff_1": 1.02165E+00,
        "coeff_2": 3.70440E-02,
        "coeff_3": 2.33248E-04,
        "coeff_4": -3.89398E-03,
        "coeff_5": -6.52536E-05,
        "coeff_6": -2.68045E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.0,
        "maximum_independent_variable_1": 10.0,
        "minimum_independent_variable_2": 24.0,
        "maximum_independent_variable_2": 35.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-C (6) for air cooled scroll chiller.  Converted coefficients for deg. F to deg. C."
      },
      {
        "name": "AirCooled_Scroll_EIRFT_NECB2011",
        "category": "Electric Chiller",
        "form": "BiQuadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "Tchws",
        "independent_variable_2": "Toadb",
        "coeff_1": 7.01818E-01,
        "coeff_2": -4.52340E-03,
        "coeff_3": 5.32980E-04,
        "coeff_4": -5.49468E-03,
        "coeff_5": 5.44644E-04,
        "coeff_6": -7.29E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.0,
        "maximum_independent_variable_1": 10.0,
        "minimum_independent_variable_2": 24.0,
        "maximum_independent_variable_2": 35.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-C (6) for air cooled scroll chiller.  Converted coefficients for deg. F to deg. C."
      },
      {
        "name": "AirCooled_Scroll_EIRFPLR_NECB2011",
        "category": "Electric Chiller",
        "form": "Quadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "QRatio",
        "independent_variable_2": null,
        "coeff_1": 0.06369119,
        "coeff_2": 0.58488832,
        "coeff_3": 0.35280274,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-C (4) for air cooled scroll chiller."
      },
      {
        "name": "AirCooled_Reciprocating_CAPFT_NECB2011",
        "category": "Electric Chiller",
        "form": "BiQuadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "Tchws",
        "independent_variable_2": "Toadb",
        "coeff_1": 1.12619E+00,
        "coeff_2": 4.15536E-02,
        "coeff_3": 2.51716E-04,
        "coeff_4": -1.04924E-02,
        "coeff_5": 1.01088E-05,
        "coeff_6": -2.55E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.0,
        "maximum_independent_variable_1": 10.0,
        "minimum_independent_variable_2": 24.0,
        "maximum_independent_variable_2": 35.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-C (6) for air cooled reciprocating chiller.  Converted coefficients for deg. F to deg. C."
      },
      {
        "name": "AirCooled_Reciprocating_EIRFT_NECB2011",
        "category": "Electric Chiller",
        "form": "BiQuadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "Tchws",
        "independent_variable_2": "Toadb",
        "coeff_1": 5.42481E-01,
        "coeff_2": -1.38816E-02,
        "coeff_3": 4.77576E-04,
        "coeff_4": 1.21461E-02,
        "coeff_5": 1.48100E-04,
        "coeff_6": -3.35E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.0,
        "maximum_independent_variable_1": 10.0,
        "minimum_independent_variable_2": 24.0,
        "maximum_independent_variable_2": 35.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-C (6) for water cooled reciprocating chiller.  Converted coefficients for deg. F to deg. C."
      },
      {
        "name": "AirCooled_Reciprocating_EIRFPLR_NECB2011",
        "category": "Electric Chiller",
        "form": "Quadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "QRatio",
        "independent_variable_2": null,
        "coeff_1": 0.1143742,
        "coeff_2": 0.5459334,
        "coeff_3": 0.34229861,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-C (4) for air cooled reciprocating chiller."
      },
      {
        "name": "AirCooled_Screw_CAPFT_NECB2011",
        "category": "Electric Chiller",
        "form": "BiQuadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "Tchws",
        "independent_variable_2": "Toadb",
        "coeff_1": 9.86540E-01,
        "coeff_2": 4.95029E-02,
        "coeff_3": -2.98242E-04,
        "coeff_4": -3.68496E-03,
        "coeff_5": -4.45500E-05,
        "coeff_6": -5.01E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.0,
        "maximum_independent_variable_1": 10.0,
        "minimum_independent_variable_2": 24.0,
        "maximum_independent_variable_2": 35.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-C (6) for air cooled scroll chiller.  Converted coefficients for deg. F to deg. C."
      },
      {
        "name": "AirCooled_Screw_EIRFT_NECB2011",
        "category": "Electric Chiller",
        "form": "BiQuadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "Tchws",
        "independent_variable_2": "Toadb",
        "coeff_1": 4.49672E-01,
        "coeff_2": 1.20074E-02,
        "coeff_3": -5.21964E-04,
        "coeff_4": 1.94400E-05,
        "coeff_5": 4.20876E-04,
        "coeff_6": -6.02E-04,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 5.0,
        "maximum_independent_variable_1": 10.0,
        "minimum_independent_variable_2": 24.0,
        "maximum_independent_variable_2": 35.0,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-C (6) for air cooled screw chiller. Converted coefficients for deg. F to deg. C."
      },
      {
        "name": "AirCooled_Screw_EIRFPLR_NECB2011",
        "category": "Electric Chiller",
        "form": "Quadratic",
        "dependent_variable": "EIRRatio",
        "independent_variable_1": "QRatio",
        "independent_variable_2": null,
        "coeff_1": 0.03648722,
        "coeff_2": 0.73474298,
        "coeff_3": 0.21994748,
        "coeff_4": null,
        "coeff_5": null,
        "coeff_6": null,
        "coeff_7": null,
        "coeff_8": null,
        "coeff_9": null,
        "coeff_10": null,
        "minimum_independent_variable_1": 0.0,
        "maximum_independent_variable_1": 1.0,
        "minimum_independent_variable_2": null,
        "maximum_independent_variable_2": null,
        "minimum_dependent_variable_output": null,
        "maximum_dependent_variable_output": null,
        "notes": "From NECB 2011 Table 8.4.4.21.-C (4) for air cooled screw chiller."
      }
    ]
  }
}

}