Unit Hourly Cap Heat Input (MMBtu). The Unit Hourly Cap Heat Input to a Unit for any load is given by the following equations and shall be determined either by a polynomial equation (C1-7a) or exponential equation (C1-7b): Unit Hourly Cap Heat Input Unit Hourly Cap Heat Input = 1.02 π (AX3 + BX2 + CX + D) π E = 1.02 π (A π (B + CX + DeFX)) π E Where: β’ X is Unitβs Hourly Metered Total Net Generation, MWh; β’ e is the base of natural logarithms; β’ A, B, C, D are coefficients given for Equation C1-7a in Table C1-7a and given for Equation C1-7b in Table C1-7b; β’ The coefficient E is applicable only when burning fuel oil. At all other times, it shall be set to 1.0. β’ F is a coefficient given in Table C1-7b. Table C1-7a A B C D E Table C1-7b A B C D E F
Appears in 5 contracts
Samples: Must Run Service Agreement, Must Run Service Agreement, Must Run Service Agreement
Unit Hourly Cap Heat Input (MMBtu). The Unit Hourly Cap Heat Input to a Unit for any load is given by the following equations and shall be determined either by a polynomial equation (C1-7a) or exponential equation (C1-7b): Unit Hourly Cap Heat Input Unit Hourly Cap Heat Input = 1.02 πο (AX3 + BX2 + CX + D) π οE Unit Hourly Cap Heat Input E = 1.02 ο π (A π (B + CX + DeFX)ο ) π E Wherο· e: β’ X is Unitβs Hourly Metered Total Net Generation, MWο· h; β’ e is the base of natural logarithmο· s; β’ A, B, C, D are coefficients given for Equation C1-7a in Table C1-7a and given for Equation C1-7b in Table C1-7ο· b; β’ The coefficient E is applicable only when burning fuel oil. At all other times, it shall be set to 1.ο· 0. β’ F is a coefficient given in Table C1-7b. Table C1-7a A B C D E Table C1-7b A B C D E F
Appears in 5 contracts
Samples: Must Run Service Agreement, Must Run Service Agreement, Must Run Service Agreement
Unit Hourly Cap Heat Input (MMBtu). The Unit Hourly Cap Heat Input to a Unit for any load is given by the following equations and shall be determined either by a polynomial equation (C1-7a) or exponential equation (C1-7b): Unit Hourly Cap Heat Input Unit Hourly Cap Heat Input = 1.02 πβ (AX3 + BX2 + CX + D) οΏ½β οΏ½ E = 1.02 β π (Aβ π (B + CX + DeFX)β ) π E Where: β’ X is Unitβs Hourly Metered Total Net Generation, MWh; β’ e is the base of natural logarithms; β’ A, B, C, D are coefficients given for Equation C1-7a in Table C1-7a and given for Equation C1-7b in Table C1-7b; β’ The coefficient E is applicable only when burning fuel oil. At all other times, it shall be set to 1.0. β’ F is a coefficient given in Table C1-7b. Table C1-7a A B C D E Table C1-7b A B C D E F
Appears in 4 contracts
Samples: Must Run Service Agreement, Must Run Service Agreement, Must Run Service Agreement
Unit Hourly Cap Heat Input (MMBtu). The Unit Hourly Cap Heat Input to a Unit for any load is given by the following equations and shall be determined either by a polynomial equation (C1-7a) or exponential equation (C1-7b): Unit Hourly Cap Heat Input Unit Hourly Cap Heat Input = 1.02 πο (AX3 + BX2 + CX + D) οΏ½ο οΏ½ E = 1.02 ο π (Aο π (B + CX + DeFX)ο ) π E Wherο· e: β’ X is Unitβs Hourly Metered Total Net Generation, MWο· h; β’ e is the base of natural logarithmο· s; β’ A, B, C, D are coefficients given for Equation C1-7a in Table C1-7a and given for Equation C1-7b in Table C1-7ο· b; β’ The coefficient E is applicable only when burning fuel oil. At all other times, it shall be set to 1.ο· 0. β’ F is a coefficient given in Table C1-7b. Table C1-7a A B C D E Table C1-7b A B C D E F
Appears in 3 contracts
Samples: Must Run Service Agreement, Must Run Service Agreement, Must Run Service Agreement
Unit Hourly Cap Heat Input (MMBtu). The Unit Hourly Cap Heat Input to a Unit for any load is given by the following equations and shall be determined either by a polynomial equation (C1-7a) or exponential equation (C1-7b): Unit Hourly Cap Heat Input Unit Hourly Cap Heat Input = 1.02 πο (AX3 + BX2 + CX + D) π οE Unit Hourly Cap Heat Input E = 1.02 ο π (A π (B + CX + DeFX)ο ) π E Wherο e: β’ X is Unitβs Hourly Metered Total Net Generation, MWο h; β’ e is the base of natural logarithmο s; β’ A, B, C, D are coefficients given for Equation C1-7a in Table C1-7a and given for Equation C1-7b in Table C1-7ο b; β’ The coefficient E is applicable only when burning fuel oil. At all other times, it shall be set to 1.ο 0. β’ F is a coefficient given in Table C1-7b. Table C1-7a A B C D E Table C1-7b A B C D E F
Appears in 1 contract
Samples: Reliability Must Run Contract
Unit Hourly Cap Heat Input (MMBtu). The Unit Hourly Cap Heat Input to a Unit for any load is given by the following equations and shall be determined either by a polynomial equation (C1-7a) or exponential equation (C1-7b): Unit Hourly Cap Heat Input Unit Hourly Cap Heat Input = 1.02 πο (AX3 + BX2 + CX + D) π οE Unit Hourly Cap Heat Input E = 1.02 ο π (A π (B + CX + DeFX)) οE π E Wherο e: β’ X is Unitβs Hourly Metered Total Net Generation, MWο h; β’ e is the base of natural logarithmο s; β’ A, B, C, D are coefficients given for Equation C1-7a in Table C1-7a and given for Equation C1-7b in Table C1-7ο b; β’ The coefficient E is applicable only when burning fuel oil. At all other times, it shall be set to 1.ο 0. β’ F is a coefficient given in Table C1-7b. Table C1-7a A B C D E Table C1-7b A B C D E F
Appears in 1 contract
Samples: Reliability Must Run Contract
Unit Hourly Cap Heat Input (MMBtu). The Unit Hourly Cap Heat Input to a Unit for any load is given by the following equations and shall be determined either by a polynomial equation (C1-7a) or exponential equation (C1-7b): Unit Hourly Cap Heat Input Unit Hourly Cap Heat Input = 1.02 π (AX3 + BX2 + CX + D) οΏ½ποΏ½ Unit Hourly Cap Heat Input E = 1.02 π (A π (B + CX + DeFX)) π E Where: β’ X is Unitβs Hourly Metered Total Net Generation, MWh; β’ e is the base of natural logarithms; β’ A, B, C, D are coefficients given for Equation C1-7a in Table C1-7a and given for Equation C1-7b in Table C1-7b; β’ The coefficient E is applicable only when burning fuel oil. At all other times, it shall be set to 1.0. β’ F is a coefficient given in Table C1-7b. Table C1-7a A B C D E Table C1-7b A B C D E F
Appears in 1 contract
Samples: Reliability Must Run Contract