Prospekt Gasturbinen-Kesselan
Transcription
Prospekt Gasturbinen-Kesselan
BERTSCHenergy Solid Fuel Boiler Plants Combined-Cycle / Cogeneration HRSG Process Waste Heat Boiler Plants Process Equipment Construction Service Boiler and Energy Technology Process Equipment Construction Combined-Cycle / Cogeneration HRSG Steam and electricity from gas and oil Passion in Steel Combined-Cycle / Cogeneration HRSG HRSG in modular design Combined-Cycle power plants (CCPP) gain more and more in importance for a stable energy supply. With their rapid response on demand they can compensate the fluctuations in the energy network, which are caused by consumers or discontinuous generators such as solar and wind power plants. Performance range ? Gas turbine performance ? Flue gas flow ? Steam parameter 5 - 100 MWel (i.e. 2 x 50 MWel connected to one HRSG) 20 - 260 kg/ s 150 t/ h, 540 °C, 140 bar Boiler technology Natural circulation boiler, single- and multipressure systems, reheatings Vertical flue gas path in top supported design Horizontal flue gas path in bottom supported design The S.H. temperature is controlled by using spray attemporators arranged between the individual superheater stages. ? ? ? ? Erection concept www.bertsch.at Combined-Cycle / Cogeneration HRSG Reference Project: Industriepark Höchst Costumer: Infraserv GmbH & Co. Höchst AG, Germany Technical data gas turbine ? ? ? ? Type 2 x Siemens SGT - 800 Electrical output 2 x 53 MW Mass flow 2 x 132 kg/s Outlet temperature 563 °C Technical data HRSG ? ? ? MCR (HP) S.H. Steam pressure S.H. Steam temperature 130 t/h 121 bar 515 °C ? ? ? MCR (LP) S.H. Steam pressure S.H. Steam temperature 29 t/h 4.2 bar 170 °C Scope of supply ? ? ? ? ? Boiler incl. stack Diverter with bypass stack Field devices Steel structure Pipe work Commissioning 4th Quarter 2010 www.bertsch.at Combined-Cycle / Cogeneration HRSG HRSG in modular design with secondary firing The supplementary firing allows a more flexible operation of the plant. A fluctuating demand in steam or heat can be balanced by the additional firing while operating the gas turbine in its optimum load point. Performance range ? Gas turbine performance ? Flue gas flow ? Secondary firing ? Steam parameter ? Fresh air operation (emergency operation) 5 - 100 MWel (2 x 50 MWel connected to one HRSG) 20 - 260 kg/s up to 850 °C 150 t/ h, 540 °C, 140 bar up to 850 °C Flue gas temperature Fuel firing Gas or oil Boiler technology ? Natural circulation boiler, single- and multipressure systems, reheatings ? Vertical flue gas path in top supported design ? Horizontal flue gas path in bottom supported design ? The S.H. temperature is controlled by using spray attemporators arranged between the individual superheater stages. ? The secondary firing by duct burners in ceramic linned comubustion chamber Steam output determination 550 Example Steam temperature (°C) 500 Flue gas volume gas turbine Flue gas temperature gas turbine 150 kg/s 550 °C Steam pressure Steam temperature 80 bar 490 °C 450 400 350 120 bar 100 bar 300 Steam output without secondary firing Steam pressure 80 bar 60 bar 130 bar 110 bar 75 t/h Maximum steam output with secondary firing, flue gas temperature downstream secondary firing 850 °C 150 t/h 90 bar 70 bar 50 bar 40 bar 250 Assumption Feed water temperature 30 bar 20 bar 105 °C 200 10 bar 150 Flue gas temperature downstream secondary firing 850 °C 200 260 t/h 240 t/h 220 t/h 200 t/h 180 t/h 160 t/h 150 x 140 t/h 120 t/h 100 t/h 80 t/h 60 t/h x 600 °C Steam output with secondary firing 550 °C 500 °C 100 Flue gas temperature 280 t/h Steam output Electrical output (MW) 300 t/h Steam output without secondary firing 50 40 t/h 20 t/h 0 0 www.bertsch.at 50 100 150 Flue gas flow [kg/s] 200 250 300 Combined-Cycle / Cogeneration HRSG Reference Project: HRSG Heizkraftwerk Mitte Customer: BS Energy (Braunschweiger Stadtwerke), Germany Technical data gas turbine ? ? ? ? Type Electrical output Massflow Outlet temperature Siemens SGT - 800 47 MW 129 kg/s 545 °C Technical data HRSG ? Secondary firing 25 MW ? ? ? MCR (HP) S.H. Steam pressure S.H. Steam temperature 95 t/h 75 bar 525 °C ? ? ? MCR (LP) S.H. Steam pressure S.H. Steam temperature 6.5 t/h 6.6 bar 205 °C ? District heating 5 MW Scope of supply ? ? ? ? ? ? Boiler incl. stack Diverter with bypass stack Feed water system Steel structure Pipe work Steam turbine bypass station Commissioning 4th Quarter 2010 www.bertsch.at Combined-Cycle / Cogeneration HRSG HRSG with cooled combustion chamber If the focus of energy supply is shifted from power towards steam, a strong secondary energy input by additional firing is necessary. In addition, this boiler design ensures a safe steam supply in case of a gas turbine failure due to it´s fresh air operation mode ability. Performance range ? Gas turbine performance ? Flue gas mass flow ? Additional firing ? ? Steam parameter Fresh air operation 5 - 40 MWel 20 - 90 kg/s up to a O2 content of 3% 50-150 t/h, 540 °C, 140 bar at MCR Fuel firing Gas or oil Boiler technology ? Natural circulation boiler, single- and multipressure systems , intermediate superheating ? Vertical flue gas path in top supported design ? Horizontal flue gas path in bottom supported design ? The S.H. temperature is controlled by using spray attemporators arranged between the individual superheater stages. ? Secondary firing and/ or fresh air firing by duct or register burners in cooled combustion chamber Bypass Stack Stack Stack Fuel Fuel Blow Out Stack Air HRSG with Fresh Air Operation Mode Air HRSG Fuel Flying Change Over from GTOperation to Fresh Air Operation Mode HRSG HRSG with Bypass Stack for Bypass Operation Mode No Bypass Operation Mode Air Stack Bypass Stack Fuel Air Air Fuel Fuel HRSG www.bertsch.at HRSG HRSG with Fresh Air Operation Mode and Bypass Stack Flying Change Over in both directions HRSG with Fresh Air Operation Mode Air Stack Fuel Air Combined-Cycle / Cogeneration HRSG Reference Project: New power station Aschaffenburg Customer: SCA Packaging Containerboard Deutschland GmbH, Germany Technical data gas turbine ? ? ? ? Type Electrical output Massflow Outlet temperature Siemens SGT - 700 40 MW 85 kg/s 535 °C Technical data HRSG ? ? ? MCR (HP) S.H. Steam pressure S.H. Steam temperature ? District heating 100 t/h 120 bar 525 °C 20 MW Scope of supply ? ? ? ? ? ? Boiler incl. stack plant Feed water system Field devices, firing control incl. cabling work Pipe work inside the boiler house Boiler house, GT-building Building services Commissioning 1st Quarter 2010 www.bertsch.at BERTSCHenergy Solid Fuel Boiler Plants Combined-Cycle / Cogeneration HRSG Process Waste Heat Boiler Plants Process Equipment Construction Service Boiler and Energy Technology Process Equipment Construction Contact BERTSCHgroup EU BERTSCHfoodtec BERTSCHecopower BERTSCHgroup CIS Bertsch Holding GmbH T +43 5552 61 35-0 F +43 5552 61 35-70 Herrengasse 23 6700 Bludenz | Austria bertschgroup@bertsch.at Bertsch Foodtec GmbH T +43 5552 61 35-0 F +43 5552 61 35-73 Herrengasse 23 6700 Bludenz | Austria bertschfoodtec@bertsch.at Bertsch Ecopower GmbH T +43 1 795 74 F +43 1 798 56 22 Baumgasse 68 1030 Wien | Austria bertschecopower@bertsch.at BERTSCHlaska Josef Bertsch Gesellschaft m.b.H. & Co. 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