Equipment Design. Detailed Plant Conceptual Design. Version 9.0

Transcription

1 Equipment Design Version 9.0 Detailed Plant Conceptual Design SOAPP CT sizes all major plant equipment, based on your Project Input, the process configuration derived from this input, and the results of the heat and material balances, using algorithms derived from design practice and manufacturer s data. SOAPP CT summarizes the results of this equipment sizing in an Equipment List containing up to 715 equipment design parameters, depending on plant design, including: 22 general project data 28 structural design data 79 combustion turbine system data 83 steam generator equipment data 20 steam turbine equipment data 53 condenser equipment data 135 pump data for 14 systems 44 balance of plant equipment data 26 tank data for 5 systems 201 piping data for 25 systems 24 electrical equipment data The Equipment List is supplemented by a Motor List / Auxiliary Power Summary and an Electrical Single Line Drawing. All of these equipment design reports produced by SOAPP CT are generated dynamically, reflecting every relevant change you make to your Project Input info@soapp.com

2 GENERAL PROJECT DATA Ambient Conditions Ambient Air Quality Maximum Site Ambient Dry Bulb Temp Maximum Site Ambient Wet Bulb Temp Minimum Site Ambient Dry Bulb Temp Performance Point Site Ambient Dry Bulb Temp Performance Point Site Ambient Wet Bulb Temp Site Average Annual Rainfall Site Maximum Daily Rainfall Site Elevation Above Mean Sea Level Design Basis Cycle Dusty 100 F 72 F 29 F 68 F 59 F 11.0 in/yr 4.0 in/day 2584 ft Combined Cycle Cogeneration of Combustion Turbines 1 of HRSGs 1 of Steam Turbines 1 Unit Factor 90 % Frequency CT Primary Fuel CT Secondary Fuel Secondary Fuel Usage Factor Heat Rejection Water Source Maximum Cooling Water Temp Performance Point Cooling Water Temp Unit Makeup Water Source STRUCTURAL DESIGN DATA Enclosures Power Block Enclosure Water Treatment Enclosure Water Treatment Enclosure Height Water Treatment Enclosure Water Treatment Enclosure Width HRSG Enclosures Warehouse Width Warehouse Approximate Plant Dimensions Overall East/West Dimension Overall North/South Dimension Approximate Unit Land Area Requirement Power Block East/West Dimension Power Block North/South Dimension Natural Gas None Well Water Foundations/Substructure UBC Seismic Zone Zone 0 Foundation Substructure Requirements Stacks of HRSG Bypass Stacks Inside at Top of HRSG Bypass Stacks Top Height Above Grade of HRSG Bypass Stacks of Construction for HRSG Bypass Stacks HRSG Bypass Diverter Valve Height HRSG Bypass Diverter Valve Page: 1 60 Hz No Yes 20 ft 70 ft 70 ft 82 ft 192 ft 646 ft 606 ft 9 acres 128 ft 258 ft Grade Beam No Piles

3 HRSG Bypass Diverter Valve Width Main Stack(s) - 1 Inside at Top of Main Stack(s) Minimum at Top of Main Stack(s) Main Stack Top Height Above Grade of Construction for Main Stack(s) COMBUSTION TURBINE DATA ft 0.25 in 150 ft Steel Turbine/Generator Data of CTs in Plant Design 1 CT Manufacturer/Model CT NOx Control, Natural Gas CT NOx Control, No 2 Fuel Oil CT NOx Emission 15% O2 - Natural Gas CT NOx Emission 15% O2 - Fuel Oil CT Exhaust Gas Temperature CT Generator CT Gross Heat Rate Perf. Pt. Conditions CT Gross Output at Generator Perf. Pt. Inlet Air Filtration Data Inlet Air Filtration Combustion Turbine Inlet Filter Height Combustion Turbine Inlet Filter Combustion Turbine Inlet Filter Width of Barrier Filters Hours Before Change Out of Barrier Filters of Prefilters Hours Before Change Out of Prefilters Bleed Air Fan Size Combustion Turbine Inlet Filter Height Combustion Turbine Inlet Filter Combustion Turbine Inlet Filter Width of Barrier Filters Hours Before Change Out of Barrier Filters of Prefilters Hours Before Change Out of Prefilters Pulse Filter Pulse Filter Total Height Pulse Filter Width Westinghouse 501G-60 Hz Dry Low NOx Combustors 25 ppmvd 1143 F Hydrogen Cooled 8726 Btu/kWh kw Pulse ft ft ft of Pulse Filter Cartridges 1083 Hours Between Change Out of Pulse Filters Inlet Precooling System Data CT Inlet Precooling System CT Inlet Precooling System Outlet Temp Evaporative Coolers Face Area Evaporative Coolers Height Evaporative Coolers Evaporative Coolers Width Heat Recovery Absorption Chiller Plant Height Heat Recovery Absorption Chiller Plant Heat Recovery Absorption Chiller Plant Width Chilled Water Cooling Coil Height Chilled Water Cooling Coil Page: h Evaporative Coolers 60 F 1943 ft ft 3.50 ft ft

4 Chilled Water Cooling Coil Width Cooling Coil Face Area Steam Absorption Chiller Plant Height Steam Absorption Chiller Plant Steam Absorption Chiller Plant Width Chilled Water Cooling Coil Height Chilled Water Cooling Coil Chilled Water Cooling Coil Width Cooling Coil Face Area Steam Turbine Driven Mechanical Chiller Height Steam Turbine Driven Mechanical Chiller Steam Turbine Driven Mechanical Chiller Width Chilled Water Cooling Coil Height Chilled Water Cooling Coil Chilled Water Cooling Coil Width Cooling Coil Face Area Ammonia System Compressor Area Height Ammonia System Compressor Area Ammonia System Compressor Area Width Ammonia System Cooling Tower Height Ammonia System Cooling Tower Ammonia System Cooling Tower Width Ammonia System Pump Area Height Ammonia System Pump Area Ammonia System Pump Area Width Chilled Water Cooling Coil Height Chilled Water Cooling Coil Chilled Water Cooling Coil Width Cooling Coil Face Area Cooling Tower Assembly Height Cooling Tower Assembly Cooling Tower Assembly Width Total Fog Nozzles per Turbine Operating Pressure Design Cooling of Cooling Stages Fog Water Flow Rate Motor Driven Mechanical Chiller Height Motor Driven Mechanical Chiller Motor Driven Mechanical Chiller Width Chilled Water Cooling Coil Height Chilled Water Cooling Coil Chilled Water Cooling Coil Width Cooling Coil Face Area HEAT RECOVERY STEAM GENERATOR DATA HRSG Design of Heat Recovery Steam Generators (HRSGs) 1 of Pressure Levels ST Reheat Cycle High Pressure Drum Pinch Point Temp High Pressure Steam Drum Approach Temp Intermediate Pressure Drum Pinch Point Temp Page: 3 Three Pressure Non-Reheat 20 F 20 F 15 F

5 Intermediate Pressure Steam Drum Approach Temp 20 F Low Pressure Drum Pinch Point Temp Low Pressure Steam Drum Approach Temp HRSG Exhaust Gas Stack Temp HRSG Exhaust Gas Stack Volumetric Flow HRSG Dimensions HRSG Height HRSG HRSG Width Deaerator Deaerator Selection Deaerator Cond Inlet Perf. Pt. Mass Flow Deaerator Cond Inlet Perf. Pt. Mass Flow Deaerator Cond Inlet Perf. Pt. Pressure Deaerator Cond Inlet Perf. Pt. Temperature Deaerator Vent Losses Perf. Pt. Mass Flow Vacuum Deaerator Cond Perf. Pt. Outlet Mass Flow Vacuum Deaerator Cond Perf. Pt. Outlet Pressure Vacuum Deaerator Cond Perf. Pt. Outlet Temperature Deaerator Vent Losses Perf. Pt. Mass Flow Condensate Heater Heater Selection Condensate Heater Perf. Pt. Inlet Mass Flow Condensate Heater Perf. Pt. Inlet Pressure Condensate Heater Perf. Pt. Inlet Temp Condensate Heater Perf. Pt. Outlet Mass Flow Condensate Heater Perf. Pt. Outlet Pressure Condensate Heater Perf. Pt. Outlet Temp Condensate Heater Height Condensate Heater Condensate Heater Width W-W Hx Perf. Pt. Inlet Mass Flow W-W Hx Perf. Pt. Inlet Pressure W-W Hx Perf. Pt. Inlet Temperature W-W Hx Perf. Pt. Outlet Mass Flow W-W Hx Perf. Pt. Outlet Pressure W-W Hx Perf. Pt. Outlet Temperature W-W Hx Height W-W Hx W-W Hx Width W-W Hx Surface Area Feedwater Economizer Height Feedwater Economizer Feedwater Economizer Width Duct Burners Include Duct Burners Duct Burner Use Duct Burner Fuel Capability Duct Burner HP Steam Flow Increase % of unfired steam flow HRSG Gas Temperature After Ductburner (Perf. Pt.) of Duct Burner Elements (each HRSG) Duct Burner Width Page: 4 15 F 334 F ft3/min-std ft ft ft Standalone Deaerator lb/h psia F 1334 lb/h

6 Duct Burner Height Duct Burner Cooling Air Fan Size Duct Burner Auxiliary Power Selective Catalytic Reduction (per HRSG) SCR Technology Included SCR Configuration SCR Ammonia Slip Limit O2) SCR Ammonia System Auxiliary Power SCR Ammonia Vaporizer Auxiliary Power SCR Catalyst Duct Height SCR Catalyst Duct SCR Catalyst Duct Width SCR Catalyst Volume Anhydrous Ammonia Injection Dilution Air Fan Size Yes Conventional (with HRSG) 5 ppmvd 13.2 kw 10.0 kw 48 ft 15 ft 42 ft 3099 ft3 Anhydrous Ammonia Storage Tank - 1 Anhydrous Ammonia Storage Tank Anhydrous Ammonia Storage Tank Anhydrous Ammonia Storage Tank Volume Aqueous Ammonia Dilution Air Heater Aux Power Aqueous Ammonia Dilution Fan Size Aqueous Ammonia Pump Size Aqueous Ammonia Storage Tank - Aqueous Ammonia Storage Tank Aqueous Ammonia Storage Tank Aqueous Ammonia Storage Tank Volume CO Catalyst Include CO Oxidation Catalyst CO Catalyst Duct Height CO Catalyst Duct CO Catalyst Duct Width CO Catalyst Volume 5.0 hp 7 ft 15 ft 3252 gal STEAM TURBINE DATA of Steam Turbines Operating 1 Non-reheat, single-flow, geared, axial exhaust Non-reheat, single-flow, geared, down exhaust Non-reheat, HP geared sec, sep. LP sec, axial exhaust Non-reheat, HP geared sec, sep. LP sec, down exhaust Non-reheat, single flow, axial exhaust Non-reheat, single flow, down exhaust Non-reheat, 2 casing, 2 flow LP sec down exhaust Reheat, 2 casing, HP/IP, 2-flow LP sec, down exhaust Reheat, 3 casing, HP/IP, 4-flow LP sec, down exhaust Reheat, 2 casing, HP sec and IP/LP sec, axial exhaust Reheat, 2 casing, HP sec and IP/LP sec, down exhaust Single, casing reheat, axial exhaust Single, casing reheat, down exhaust of Steam Turbine Exhausts (per ST) 2 ST Sizing Criteria Include a Steam Bypass ST Gross Output at Generator Perf. Pt. (per ST) ST Gross Output at Generator Perf. Pt. (Total) Steam Turbine Exhaust Annulus Area (per ST) Page: 5 Excluding Max Exports No kw kw ft2

7 Steam Turbine Exhaust Losses (per ST) Btu/lb Approximate Steam Turbine Last Stage Blade CONDENSER DATA Design Data Cooling System of Condensers Condenser Arrangement Condenser of Passes (per condenser) Condenser of Pressures (per condenser) of Condenser Shells (per condenser) Condenser Pressure - Design Performance Data Design Heat Load (per condenser) Steam Inlet Mass Flow (per condenser) Steam Inlet Pressure Steam Inlet Temperature Condensate Outlet Mass Flow (per condenser) Condensate Outlet Pressure Condensate Outlet Temperature Circulating Water Inlet Flow (per condenser) Circulating Water Inlet Temperature - Performance Circulating Water Inlet Temperature - Design Circulating Water Outlet Temperature - Performance Circulating Water Outlet Temperature - Design Dimensions (per condenser) Condenser Overall Condenser Total Height Condenser Shell Height Condenser Shell Condenser Shell Width Condenser Hotwell Height Condenser Shell Height Condenser Shell Condenser Shell Width Condenser Water Box Condenser Water Box Side Condenser Expansion Joint Condenser Expansion Joint Width Tube Data (per condenser) of Condenser Tubes Condenser Tube Outside Circulating Water Velocity Condenser Tube Gauge Condenser Tube Wall Condenser Tube Condenser Tube Condenser Tube Surface Area Condenser Tube Condenser Tube Cleaning Air Cooled Condenser Cooling System Cell Page: in 6.24 in Hg 580,816,768 Btu/h Air Cooled Condenser 34 ft

8 Cell Width 34 ft of Cells Long 5 of Cells Wide 3 Total of Cells 15 Fan Fan Motor Size Height of Tube Bundles Total Height Total Total Width COOLING TOWER DATA Cooling System of Cooling Towers Cooling Tower(s) Total of Cells Design Heat Rejected (Total Plant) Circulating Water Inlet Flow (Total Plant) Circulating Water Inlet Temperature Cooling Tower Fan Each Cooling Tower Fan Motor Size Cooling Tower Fan Cooling Tower - Height of Fan Deck Cooling Tower - Height of Fan Stack Cooling Tower Cell Cooling Tower Width Cooling Tower Height Cooling Tower #1 - Cooling Tower #2 - Cooling Tower #3 - Cooling Tower #4 - PUMP DATA Boiler Feed Pumps Boiler Feed Pump Sparing 1-100% High Pressure Feed Pumps High Pressure Feed Pump Sparing Total of Pumps for Plant each Net Developed Head Driver Speed Driver High Pressure/Intermediate Pressure Feed Pumps Boiler Feed Pump Design 28 ft 150 hp 20 ft 56 ft 170 ft 102 ft HP Pump with IP Takeoff HP/IP Feed Pump Sparing 1-100% Total of Pumps Per Plant 1 Pump HP each HP Net Developed Head IP each IP Net Developed Head Page: 7 Split Case w/take Off 1450 gpm 4474 ft H2O 149 gpm 1437 ft H2O 2195 hp

9 2250 hp Driver Speed Driver Intermediate Pressure Feed Pumps IP Feed Pump Sparing Total of Pumps for Plant each Net Developed Head Driver Speed Driver 3600 rpm Motor Low Pressure Feed Pumps LP Feed Pump Sparing 1-100% Total of Pumps for Plant 1 each Net Developed Head Driver Speed Driver Hor Split Case 150 gpm 143 ft H2O 9 hp 10 hp 1800 rpm Motor Condensate Pump(s) 1-100% Total of Pumps for Plant 1 Discharge Flow Net Developed Head Circulating Water Pumps Total of Pumps for Plant Discharge Flow Net Developed Head Motor Miscellaneous Pumps Fire Water Pumps Net Developed Head Auxiliary Power Screen Wash Pumps Total of Pumps for Plant Net Developed Head Page: 8 Vertical 1449 gpm 162 ft H2O 78 hp 100 hp

10 Service Water Pumps Net Developed Head 4580 gpm Component Cooling Water Pumps 2-100% Pump Net Developed Head Condenser Vacuum Pumps Total of Pumps for Plant Pump CT Fuel Oil Unloading Pumps CT Fuel Oil Forwarding Pumps Total Developed Head Duct Burner Fuel Oil Forwarding Pumps Total Developed Head Horizontal 115 ft H2O 4354 gpm 115 ft H2O 167 hp 200 hp Error 0 gpm 0 ft H2O 0.00 hp 0.00 hp Condensate Makeup Pump 2-100% Total Developed Head Hor Split Case 48 gpm 100 ft H2O 2.00 hp 3.00 hp Pretreatment Backwash Transfer Pump 2-100% Total Developed Head Vertical 2 gpm 100 ft H2O 0.09 hp 0.13 hp Waste Water Pumps 2-100% Page: 9 Vertical 187 gpm

11 Total Developed Head 200 ft H2O 3.17 hp hp Water Treatment System Makeup Pumps 2-100% Total Developed Head Hor Split Case 75 gpm 200 ft H2O 6.24 hp 7.50 hp Water Treatment System Raw Water Pumps 1-100% Total Developed Head HRSG HP Circulation Pumps Total Developed Head HRSG IP Circulation Pumps Total Developed Head HRSG LP Circulation Pumps Total Developed Head BOP EQUIPMENT DATA Natural Gas Compressor CT Nat Gas Pressure Required Vertical 75 gpm 300 ft H2O 6.87 hp hp of NG Booster Compressors 2 Compressor Compressor Total Developed Pressure Compressor Instrument & Station Air Compressors 625 psig lb/h 225 psid 1366 hp 1500 hp Screw 3-50%,Total Discharge Pressure Page: ft3/min-std 125 psig 48 hp

12 50 hp of Receivers 2 Volume of Receivers,Each Instrument Air Dryers Aftercoolers & Moisture Separators Included Auxiliary Boiler Auxiliary Boiler Steam Pressure Auxiliary Boiler Steam Temperature Auxiliary Boiler Steam Flow Auxiliary Boiler Fuel Flow (primary fuel) of Auxiliary Boiler Units Overall Auxiliary Boiler Overall Auxiliary Boiler Width Overall Auxiliary Boiler Height Component Cooling Water Heat Exchanger Component Cooling Water Hx Inlet Flow Component Cooling Water Hx Inlet Temperature Component Cooling Water Hx Outlet Flow Component Cooling Water Hx Outlet Temperature Component Cooling Water Hx Total Heat Load Turbine Room Crane Span Main Hook Auxiliary Hook Dessicant 28 ft3 Yes 4147 gpm 110 F 4147 gpm 86 F Btu/h Water Treating System of Parallel Trains 2-100% Total Auxiliary Power Total Installed Condensate Polisher of Service Vessels Service Vessel Space Requirement Precoat Tank/Pumps & Air Surge Tank Included Condensate Preheating Heat Exchanger Heat Exchanger Heat Load Heat Exchanger Surface Area TANKS Treated Water Storage Tank Tank Tank Tank Height Neutralization Tank and Agitator Neutralization Tank Neutralization Tank Neutralization Tank Height kw 8139 gph gal 24 ft 18 ft gal of Neutralization Tank Agitators 1-100% Neutralization Tank Agitator Motor Size 36 ft 34 ft hp Oil/Water Separator(s) Oil Separator 1 Oil Separator Oil Separator Page: 11 Corrugated Plate 31 gpm

13 Fire Water Tank Fire Water Source of Tanks Tank Tank Tank Height Fuel Oil Storage Tank(s) DB Fuel Oil Storage Basis Fuel Oil Storage Duration Total Storage Volume Requirement Height Dike Area Dike Dike Width PIPING DATA Fuel Oil Piping CT Fuel Oil Branch Pipe Size CT Fuel Oil Branch Pipe Schedule CT Fuel Oil Branch Pipe Total CT Fuel Oil Header Pipe Size CT Fuel Oil Header Pipe Schedule CT Fuel Oil Header Pipe Fuel Oil Storage Tank Header Piping Size Fuel Oil Storage Tank Header Piping Schedule Fuel Oil Storage Tank Header Piping Total HRSG Fuel Oil Header Pipe Size HRSG Fuel Oil Header Pipe Schedule HRSG Fuel Oil Header Pipe Natural Gas Piping Plant Nat Gas Header Pipe Size Plant Nat Gas Header Pipe Schedule 40 Plant Nat Gas Header Pipe CT Nat Gas Header Pipe Size CT Nat Gas Header Pipe Schedule 40 CT Nat Gas Header Pipe CT Nat Gas Branch Pipe Size CT Nat Gas Branch Pipe Schedule 40 CT Nat Gas Branch Pipe HRSG Nat Gas Header Pipe Size HRSG Nat Gas Header Pipe Schedule HRSG Nat Gas Header Pipe Cold Reheat Steam Piping Cold Reheat Steam Mass Flow, per HRSG Cold Reheat Steam Pressure Cold Reheat Steam Temperature Plant Header Plant Header Plant Header Plant Header Page: 12 6 in 500 ft 4 in 120 ft 4 in 250 ft

14 HRSG Leads HRSG Leads HRSG Leads HRSG Leads Hot Reheat Steam Piping Hot Reheat Steam Mass Flow, per HRSG Hot Reheat Steam Pressure Hot Reheat Steam Temperature Plant Header Plant Header Plant Header Plant Header HRSG Leads HRSG Leads HRSG Leads HRSG Leads High Pressure Steam Piping Mass Flow, per HRSG Pressure at HRSG Temperature at HRSG Plant Header Plant Header Plant Header Plant Header HRSG Leads HRSG Leads HRSG Leads HRSG Leads Intermediate Pressure Steam Piping Mass Flow, per HRSG Pressure at HRSG Temperature at HRSG Plant Header Plant Header Plant Header Plant Header HRSG Leads HRSG Leads HRSG Leads HRSG Leads Low Pressure Steam Piping Mass Flow, per HRSG Pressure at HRSG Temperature at HRSG Plant Header Plant Header Plant Header Plant Header HRSG Leads HRSG Leads HRSG Leads HRSG Leads Page: lb/h 1545 psia 1005 F 10 in 630 ft A335GRP in 10 in 840 ft A335GRP in lb/h 464 psia 528 F 8 in 630 ft in 8 in 840 ft in

15 High Pressure Steam Turbine Bypass Piping Intermed. Pressure Steam Turbine Bypass Piping Low Pressure Steam Turbine Bypass Piping High Pressure HRSG Export Piping High Pressure HRSG Export Steam Flow Intermediate Pressure HRSG Export Piping Intermediate Pressure HRSG Export Steam Flow Intermediate Pressure HRSG Saturated Export Piping Intermediate Pressure HRSG Saturated Export Steam Flow Low Pressure HRSG Export Piping Low Pressure HRSG Export Steam Flow Low Pressure HRSG Saturated Export Piping Low Pressure HRSG Saturated Export Steam Flow Steam Turbine Controlled Extraction 1 Piping Controlled Steam Turbine Extraction 1 Mass Flow Controlled Steam Turbine Extraction 1 Pressure Controlled Steam Turbine Extraction 1 Temperature Controlled Steam Turbine Extraction 1 Controlled Steam Turbine Extraction 1 Controlled Steam Turbine Extraction 1 Page: 14

16 Controlled Steam Turbine Extraction 1 Steam Turbine Controlled Extraction 2 Piping Controlled Steam Turbine Extraction 2 Mass Flow Controlled Steam Turbine Extraction 2 Pressure Controlled Steam Turbine Extraction 2 Temperature Controlled Steam Turbine Extraction 2 Controlled Steam Turbine Extraction 2 Controlled Steam Turbine Extraction 2 Controlled Steam Turbine Extraction 2 Steam Turbine Controlled Extraction 3 Piping Controlled Steam Turbine Extraction 3 Mass Flow Controlled Steam Turbine Extraction 3 Pressure Controlled Steam Turbine Extraction 3 Temperature Controlled Steam Turbine Extraction 3 Controlled Steam Turbine Extraction 3 Controlled Steam Turbine Extraction 3 Controlled Steam Turbine Extraction 3 Steam Turbine Controlled Extraction 4 Piping Controlled Steam Turbine Extraction 4 Mass Flow Controlled Steam Turbine Extraction 4 Pressure Controlled Steam Turbine Extraction 4 Temperature Controlled Steam Turbine Extraction 4 Controlled Steam Turbine Extraction 4 Controlled Steam Turbine Extraction 4 Controlled Steam Turbine Extraction 4 Combustion Turbine Steam Injection Piping CT Steam Injection Pressure CT Steam Injection Temperature CT Steam Injection Mass Flow, per CT - Max Cold Reheat Steam Injection Piping CT Steam Injection Piping Pressure CT Steam Injection Piping Temperature CT Steam Injection Piping Mass Flow, per CT - Max High Pressure Feedwater Piping High Pressure Feedwater Mass Flow, per HRSG High Pressure Feedwater Pressure High Pressure Feedwater Temperature Header Header Header Header Leads Leads Leads Page: lb/h 1763 psia 322 F 8 in 130 ft in 8 in 100 ft

17 Leads in Intermediate Pressure Feedwater Piping Intermediate Pressure Feedwater Mass Flow, per HRSG Intermediate Pressure Feedwater Pressure Intermediate Pressure Feedwater Temperature Header Header Header Header Leads Leads Leads Leads Low Pressure Feedwater Piping Low Pressure Feedwater Mass Flow, per HRSG Low Pressure Feedwater Pressure Low Pressure Feedwater Temperature Header Header Header Header Leads Leads Leads Leads Condensate Piping Header Header Header Header Leads Leads Leads Leads Circulating Water Piping Component Cooling Water Piping Heat Exchanger Outlet Piping - Header Heat Exchanger Outlet Piping - Header Heat Exchanger Outlet Piping - Header Heat Exchanger Outlet Piping - Header lb/h 555 psia 324 F 3 in 130 ft in 3 in 80 ft in lb/h 88 psia 319 F 2 in 130 ft in 2 in 80 ft in 8 in 200 ft in 8 in 20 ft in 16 in 580 ft in ELECTRICAL EQUIPMENT DATA High Voltage Breakers - 4 Motorized Disconnects - 8 Switchgear MV Breakers - 8 MCC (480 V) Groups - 9 Main Power Transformer - Combustion Turbine Unit Auxiliary Transformer - Combustion Turbine Main Power Transformer - Steam Turbine Page: MVA 1500 kva 94 MVA

18 Unit Auxiliary Transformer - Steam Turbine 9216 kva Main Power Transformer - Single-Shaft Configuration Unit Auxiliary Transformer - Singe-Shaft Configuration Reserve Auxiliary Transformer kva Unit Subs 4 Isolated Phase Bus Duct - CT MPT to Generator Isolated Phase Bus Duct - CT MPT to UAT Isolated Phase Bus Duct - CT UAT to Non-Seg Bus Ducts Isolated Phase Bus Duct - ST MPT to Generator Isolated Phase Bus Duct - ST MPT to UAT Isolated Phase Bus Duct - ST UAT to Non-Seg Bus Ducts Isolated Phase Bus Duct - MPT to Generator Isolated Phase Bus Duct - MPT to UAT Isolated Phase Bus Duct - UAT to Non-Seg Bus Ducts Isolated Phase Bus Duct - RAT to Non-Seg Bus Ducts Switchyard Voltage Electrical System Low Voltage A 100 A 200 A 4400 A 400 A 1100 A 1300 A 115 kv 15 kv Page: 17

19 Motor List and Auxiliary Power Summary- English scale for: System/Component Sparing or Total # Design HP (each) Operating Operating Aux kw Operating Aux kw Operating Aux kw Design Period#1 Period#2 Circulating Water Pumps (Sparing per condenser) Screen Wash Pumps (Sparing per condenser) Component Cooling Water Pumps 2-100% Cooling Tower Fans Air Cooled Condenser Fans , , ,510.0 Condenser Vacuum Pumps (Sparing per condenser) Condensate Pumps (Sparing per condenser) 1-100% Condensate Makeup Pumps 2-100% High Pressure Feedwater Pumps Intermediate Pressure Feedwater Pumps High/Intermediate Pressure Feedwater Pumps 1-100% , , ,421.0 Low Pressure Feedwater Pumps 1-100% HRSG HP Circulation Pumps HRSG IP Circulation Pumps HRSG LP Circulation Pumps Water Treatment System N/A N/A N/A Raw Water Pumps 1-100% Water Treatment Makeup Pumps 2-100% Pretreatment Backwash Pumps 2-100% Waste Water Pumps 2-100% Waste Water Neutralization Tank Agitator 1-100% CT Fuel Oil Forwarding Pumps CT Fuel Oil Unloading Pumps Duct Burner Fuel Oil Forwarding Pumps Natural Gas Compressors , Fire Water Pumps Station Air Compressors 3-50% Bypass Stack/Diverter Valve Seal Air Fans Inlet Air Cooling System N/A N/A N/A SCR Ammonia Injection System N/A N/A N/A Dilution Air Fans Combustion Turbine Auxiliaries N/A N/A N/A Transformer Losses N/A N/A N/A 1, , Miscellaneous Auxiliaries N/A N/A N/A Total Auxiliary Power Consumption 6, , ,050.1 Date: 04/07/15 14:06 Page: 1

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