SUBJECT INDEX






        ABB GT24/36 CCGT plant, 128           Capital charge factor, 189, 190-191
        Absorption, 136- 139                  Capital cost per kilowatt, 191
        Adiabatic combustion, 23              Capital costs, 131, 132, 189, 190-  192
        Adiabatic mixing, 5 I                 Carbon dioxide, 131, 192, 193
        Adiabatic wall temperature, 185       Carbon dioxide removal, 144-145,  146, 157
        Advanced steam topping (FAST), 99, 100   Carbon tax, 163-164,  192-194
        Aero-engine derivative, 191          Carnot cycle, 7, 8, 9, 20
        Aftercooler, 94-96                    Carnot efficiency, 7, 9
        Air recuperation, 90                  Carnot engines, 7-9,  16- 17, 20
        Air standard cycles, 28, 33, 48, 68   Cascaded humid air turbine (CHAT) cycle, 101,
        Allowable stack temperature, 118, 174        102, 104, 107
        Ambient temperatures, 13- 14, 24      CBT and CCGT plants with full oxidation,
        Annual cost, 189                             158
        Annual payments, 190                 CBT open circuit plant, 39
        Annuity present worth factor, 190    CCGT (combined cycle gas turbines), xiv, 109,
        Arbitrary overall efficiency, 6-7,  40-42,  66,   111,  112, 116, 117, 123
               112-1 13, 168                  CCGT plant with feed water heating by bled
        Area for heat transfer, 183                  steam, 119
        Area plots of the range of EUF and FESR,   CCGT plant with full oxygenation, 158
               179                           Change in overall efficiency, 2  1 -22,  127
        Artificial efficiency, 170           Change in total pressure, 62
        Arbitrary overall efficiency, 41     Centrax 4 MW gas turbine, 180
        Artificial thermal efficiency, 170   CHAT (cascaded humid air turbine) plant, 101,
                                                     102, 104, 107
                                             Chemical absorption, 137
        Basic power plant, 2                 Chemical absorption process,  137
        Basic STIG plant, 85                 Chemical reactions, 22, 141  - 145
        Basic gas turbine cycles, 27-46         reforming, 143, 148, 157
        Beilen CHP plant, 177, 180           Chemically reformed gas turbines (CRGT), 133,
        Biot number, 185                             147-153
        Bled steam feed water heating, 1 19- 120.   CHP see combined heat and power
               121                           CHP plant, 3, 167, 174, 177
        Boiler efficiency, 5, 1 1 I,  I 17   Classification of gas-fired plants, 132
        Boiler pressure, 1 18                Classification, gas-fired cycles, 132- 136
        Boudouard reaction,  143             Closed circuit gas turbine plant, 2, 4
                                             Closed cyclic power plant, 1
        Calculated exergy losses, 83         Closed cycles
        Calculating plant efficiency, 7  1 -84   air standard, 33
        Calorific value experiment, 5, 14, 41, 87, 90   efficiency, 4-6
        Calorific value, 5-6,  14, 41, 87, 90, 189-190   exergy flux, 19-22
                                           195