Steam driven boiler feed pumps for Lakvijaya Power Station, Sri Lanka

Energy saving in coal power plants is a popular topic in present days with the global energy crisis. Internal electricity demand or auxiliary power consumption is an energy portion related with equipment supportive to the main equipment, which is unavoidable but with a proper investigation, some amo...

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Main Author: Wanasinghe, Buddhika Hasantha
Format: Others
Language:English
Published: Högskolan i Gävle, Energisystem 2017
Subjects:
BFP
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-23756
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spelling ndltd-UPSALLA1-oai-DiVA.org-hig-237562017-03-22T05:43:18ZSteam driven boiler feed pumps for Lakvijaya Power Station, Sri LankaengWanasinghe, Buddhika HasanthaHögskolan i Gävle, Energisystem2017steam drivenelectric motor drivenBFPcoalSRI LANKAsub-criticalEnergy EngineeringEnergiteknikEnergy saving in coal power plants is a popular topic in present days with the global energy crisis. Internal electricity demand or auxiliary power consumption is an energy portion related with equipment supportive to the main equipment, which is unavoidable but with a proper investigation, some amount of this energy can be saved either by introducing thermally efficient auxiliary equipment or improving efficiencies of available equipment. Out of the various auxiliary equipment, the driving motor of boiler feed pump is the largest power consumer of internal electricity demand in 3x300 MW sub-critical Lakvijaya Power Station in Sri Lanka. So it is obvious that prime movers of feed pumps could be contributed for a large percentage of the losses. So it was decided to find out how to minimize the losses related to Boiler Feed Pump (BFP) system using small steam turbine to drive the BFP. The widely used alternatives for the BFP drivers are condensing type and back pressure type steam turbines. Eleven (11) different configurations of Condensing type, back pressure type and also extraction back pressure type turbines were considered and software programs for each configuration were implemented using Engineering Equation Solver (EES) software. The considered configurations are different to each other by inlet steam thermodynamic parameters, steam flow rate, exhaust thermodynamic steam parameters and intermediate extraction parameters etc. Thermodynamic analysis ended up with interesting solutions while all the configurations are giving improved efficiencies than existing electrical motor driven mode. But some of them had not improved their net output and hence there were no gain in net generator power output although the efficiencies are higher. Out of other configurations with improved net output and efficiency, the case with back pressure turbine arranged parallel to the HP turbine had the highest net output gain with better improvement in efficiency without changing the input power to the boiler. Considering the CO2 , SOx and NOx emissions, it was cleared that power plant with suggested BFP modes will give more clean energy than existing power plant. Considering the partial loads behavior it was observed that power plant with Back pressure turbine, steam extracted from HP turbines inlet for prime movers of boiler feed pumps is more thermodynamically economical than existing power plant. Annual financial saving with BFP configurations with positive net output gain and zero boiler input gain were calculated and it will be in between 0.46 and 2.72 UDS million / Year. Student thesisinfo:eu-repo/semantics/bachelorThesistexthttp://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-23756application/pdfinfo:eu-repo/semantics/openAccess
collection NDLTD
language English
format Others
sources NDLTD
topic steam driven
electric motor driven
BFP
coal
SRI LANKA
sub-critical
Energy Engineering
Energiteknik
spellingShingle steam driven
electric motor driven
BFP
coal
SRI LANKA
sub-critical
Energy Engineering
Energiteknik
Wanasinghe, Buddhika Hasantha
Steam driven boiler feed pumps for Lakvijaya Power Station, Sri Lanka
description Energy saving in coal power plants is a popular topic in present days with the global energy crisis. Internal electricity demand or auxiliary power consumption is an energy portion related with equipment supportive to the main equipment, which is unavoidable but with a proper investigation, some amount of this energy can be saved either by introducing thermally efficient auxiliary equipment or improving efficiencies of available equipment. Out of the various auxiliary equipment, the driving motor of boiler feed pump is the largest power consumer of internal electricity demand in 3x300 MW sub-critical Lakvijaya Power Station in Sri Lanka. So it is obvious that prime movers of feed pumps could be contributed for a large percentage of the losses. So it was decided to find out how to minimize the losses related to Boiler Feed Pump (BFP) system using small steam turbine to drive the BFP. The widely used alternatives for the BFP drivers are condensing type and back pressure type steam turbines. Eleven (11) different configurations of Condensing type, back pressure type and also extraction back pressure type turbines were considered and software programs for each configuration were implemented using Engineering Equation Solver (EES) software. The considered configurations are different to each other by inlet steam thermodynamic parameters, steam flow rate, exhaust thermodynamic steam parameters and intermediate extraction parameters etc. Thermodynamic analysis ended up with interesting solutions while all the configurations are giving improved efficiencies than existing electrical motor driven mode. But some of them had not improved their net output and hence there were no gain in net generator power output although the efficiencies are higher. Out of other configurations with improved net output and efficiency, the case with back pressure turbine arranged parallel to the HP turbine had the highest net output gain with better improvement in efficiency without changing the input power to the boiler. Considering the CO2 , SOx and NOx emissions, it was cleared that power plant with suggested BFP modes will give more clean energy than existing power plant. Considering the partial loads behavior it was observed that power plant with Back pressure turbine, steam extracted from HP turbines inlet for prime movers of boiler feed pumps is more thermodynamically economical than existing power plant. Annual financial saving with BFP configurations with positive net output gain and zero boiler input gain were calculated and it will be in between 0.46 and 2.72 UDS million / Year.
author Wanasinghe, Buddhika Hasantha
author_facet Wanasinghe, Buddhika Hasantha
author_sort Wanasinghe, Buddhika Hasantha
title Steam driven boiler feed pumps for Lakvijaya Power Station, Sri Lanka
title_short Steam driven boiler feed pumps for Lakvijaya Power Station, Sri Lanka
title_full Steam driven boiler feed pumps for Lakvijaya Power Station, Sri Lanka
title_fullStr Steam driven boiler feed pumps for Lakvijaya Power Station, Sri Lanka
title_full_unstemmed Steam driven boiler feed pumps for Lakvijaya Power Station, Sri Lanka
title_sort steam driven boiler feed pumps for lakvijaya power station, sri lanka
publisher Högskolan i Gävle, Energisystem
publishDate 2017
url http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-23756
work_keys_str_mv AT wanasinghebuddhikahasantha steamdrivenboilerfeedpumpsforlakvijayapowerstationsrilanka
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