Firm Cogeneration ����� (Capacity) ������ (Algorithm) EX = 0; TX = 0 For D = ������ 1 To ��������� For T = ����� To ���� Step 15 ���� If ����� = M ���� E ���� D ���� S ���� O Then EX = EX + 0 TX = TX + 0 Else ‘ ������� M/E/D/S/O If ������ Then If k. W > 1. 02 x CC x 1, 000 Then EX = EX + 1. 02 x CC x 1, 000 / 4 Else EX = EX + k. W / 4 End If Else ‘ ������ If k. W > 1. 02 x CC x 1, 000 Then EX = EX + CC x 1, 000 / 4 Else EX = EX + k. W / 4 End If TX = TX + 0. 25 End If Next T Next D EPK ���� EPP ���� EPK = EX TPK ���� TPP ���� TPK = TX
Firm Cogeneration ������ (Energy) ������ (Algorithm( E 100 = 0; E 050 = 0; E 000 = 0; [������� EPP 100 / EPK 100 / EOP 100 / EPP 050 / EPK 050 / EOP 050 / EPP 000 / EPK 000 / EOP 000] For D = ������ 1 To ��������� For T = ����� To ���� Step 15 ���� [ CP Block] Event = Function(Dispatch, Contracted Capacity, S_DAY, Event. Tag) k. Wh = k. W / 4 If Event = “����� ” Then [ Energy Arrangement Block ] If Event = “���� ” Then If Period= “PP+PK” Then [ Energy Arrangement Block ] If Period= “OP” Then If Period= “Ramp” Then [ Energy Arrangement Block ] If Period= “Base” Then [ Energy Arrangement Block ] End If If Event = “������� ” Then If Period= “PP+PK” Then If DAY= “������� ” Then [ Energy Arrangement Block ] End If If Period= “OP” Then If Dispatch>=0. 65 x. CC Then [ Energy Arrangement Block ] If Dispatch < 0. 65 x. CC Then [ Energy Arrangement Block ] End If If Event = “R/Y/M” Then [ Energy Arrangement Block ] If Event = “T” Then [ Energy Arrangement Block ] If Event = “LF” Then [ Energy Arrangement Block ] If Event = “ 3” Then [ Energy Arrangement Block ] Next T Next D AE = E 100 + E 050 + E 000 [���� = EPP 100 + EPK 100 + EOP 100 + EPP 050 + EPK 050 + EOP 050 + EPP 000 + EPK 000 + EOP 000] BE = E 100 + E 050 / 2