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Text File | 1991-05-10 | 9KB | 140 lines

ASEAM2 PLANT INPUT FORMS (ABBREVIATED) Fuel Type Energy Unit Cost Conversion Factors (BTU/Unit) Units $ / Unit Site Source Electricity KWH _____ _____ _____ Natural Gas Therms _____ _____ _____ #2 Oil Gallons _____ _____ _____ #4 Oil Gallons _____ _____ _____ #6 Oil Gallons _____ _____ _____ Dist Heating MBTU _____ _____ _____ Dist Cooling MBTU _____ _____ _____ Label for Miscellaneous Fuel Units Annual Consumption Energy Consumption (See Codes Below) in Energy Units _______________________________ _ ____________ _______________________________ _ ____________ _______________________________ _ ____________ _______________________________ _ ____________ _______________________________ _ ____________ Fuel Code Fuel Type Energy Units 1 Natural Gas therms 2 Oil gallons 3 Electricity KWH 4 Dist Heating MBTU 5 Dist Cooling MBTU ASEAM2 PLANT INPUT FORMS (ABBREVIATED) Type 1 Type 2 Centrifugal chiller cooling capacity (per chiller) ______ ______ tons (or) Percent design load satisfied per chiller ___ ___ % Number of chillers of this capacity _ _ Design coefficient of performance ____ ____ Minimum unloading ratio (% of capacity) __ __ % Minimum part load ratio (% of capacity) __ __ % Load management/operation (1=always on 2=as needed) _ _ Chilled water temperature at design load ___ ___ °F Chilled water temperature at minimum load ____ ____ °F Chilled water flow (blank=autosized) ____ ____ gpm Chilled water pump KW (blank=autosized) ____ ____ KW Type 1 Type 2 Absorption chiller cooling capacity (per chiller) ______ ______ tons (or) Percent design load satisfied per chiller ___ ___ % Number of chillers of this capacity _ _ Heat input energy source (1=Boiler 2=Dist Heat) _ _ Design coefficient of performance ____ ____ Minimum part load ratio (% of capacity) __ __ % Number of absorption stages _ _ Load management/operation (1=always on 2=as needed) _ _ Chilled water temperature at design load ___ ___ °F Chilled water temperature at minimum load ____ ____ °F Chilled water flow (blank=autosized) ____ ____ gpm Chilled water pump KW (blank=autosized) ____ ____ KW Type 1 Type 2 Double Bundle chiller cooling capacity (per chiller) ______ ______ tons (or) Percent design load satisfied per chiller ___ ___ % Number of chillers of this capacity _ _ Design coefficient of performance ____ ____ Minimum unloading ratio (% of cap - clg mode) __ __ % Minimum unloading ratio (% of cap - htg mode) __ __ % Minimum part load ratio (% of capacity) __ __ % Load management/operation (1=always on 2=as needed) _ _ Chilled water temperature at design load ____ ____ °F Chilled water temperature at minimum load ____ ____ °F Chilled water flow (blank=autosized) ____ ____ gpm Chilled water pump KW (blank=autosized) ___ ___ KW Design heat recovery temperature ___ ___ °F Heat recovery backup (1=Boiler 2=Dist Htg) _ _ Type 1 Type 2 Reciprocating chiller cooling capacity (per chiller) ____ ____ tons (or) Percent design load satisfied per chiller ___ ___ % Number of chillers of this capacity _ _ Design coefficient of performance ____ ____ Minimum unloading ratio (% of capacity) __ __ % Minimum part load ratio (% of capacity) __ __ % Load management/operation (1=always on 2=as needed) _ _ Chilled water temperature at design load ____ ____ °F Chilled water temperature at minimum load ____ ____ °F Chilled water flow (blank=autosized) ____ ____ gpm Chilled water pump KW (blank=autosized) ___ ___ KW ASEAM2 PLANT INPUT FORMS (ABBREVIATED) Cooling tower total heat rejection capacity _____ tons (or) Percent of design heat rejection load satisfied ___ % Number of tower cells (blank=autosized) _ Fan KW per cell (blank=autosized) ___ KW Number of fan speeds (1 or 2) _ Approach temperature __ °F Condenser water temperature at design load ___ °F Condenser water temperature at minimum load ___ °F Condenser water flow rate (blank=autosized) ___ gpm Condenser water pump KW (blank=autosized) ___ KW DHW Energy Source (0=None 1=Elec 2=Gas 3=Oil 4=Blr 5=Dist) _ (if oil) Oil Type (2 or 4 or 6) _ (if gas) Annual pilot consumption ___ therms Domestic Hot Water Heating Capacity (blank=autosized) ____ KBTUH (if autosized) Peak hourly DHW usage ____ gal/hour Average hourly DHW usage - occupied cycle ____ gal/hour Average hourly DHW usage - unoccupied cycle ____ gal/hour Domestic hot water supply temperature ___ °F DHW inlet temperature - design summer __ °F DHW inlet temperature - design winter __ °F Circulating pump KW - occupied cycle ___ KW Circulating pump KW - unoccupied cycle ___ KW Design DHW heating efficiency ___ % DHW losses - occupied cycle _____ BTUH DHW losses - unoccupied cycle _____ BTUH Type 1 Type 2 Boiler Energy Source (1=Elect 2=Nat Gas 3=Oil) _ _ (if oil) Oil type (2 or 4 or 6) _ _ (if gas) Annual pilot consumption ____ ____ therms Boiler heating capacity (per boiler) ______ ______ KBTUH (or) % max heating load satisfied (per boiler) ___ ___ % Number of boilers with this capacity _ _ Load management/operation (1=always on 2=as needed) _ _ Boiler efficiency method (1=user entered 2=calc) _ _ Design boiler efficiency (if user entered) ____ ____ % (if calc) Combustion air temperature ___ ___ °F (if calc) Stack temperature ___ ___ °F (if calc) Air-Fuel ratio ____ ____ Lb/Lb Minimum part load operating ratio (% of capacity) __ __ % Boiler pump KW (blank=autosized) ___ ___ KW Boiler losses - percent of capacity __ __ % Boiler losses - percent of load __ __ %