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5. Combined Electricity Production and Thermally Driven Cooling from Municipal Solid Waste

Author

Udomsri, Seksan

Subjects
Energiteknik, thermally driven cooling, hybrid cycle, incineration, decentralized thermally driven cooling, absorption chillers, Energy Engineering, municipal solid waste, power production, district heating
Abstract

Increasingly intensive efforts are being made to enhance energy systems via augmented introduction of renewable energy along with improved energy efficiency. Resource constraints and sustained high fossil fuel prices have created a new phenomenon in the world market. Enhanced energy security and renewable energy development are currently high on public agenda worldwide for achieving a high standard of welfare for future generations. Biomass and municipal solid waste (MSW) have widely been accepted as important locally-available renewable energy sources offering low carbon dioxide (CO2) emissions. Concerning solid waste management, it has become a critical issue in Southeast Asia since the most popular form for waste disposal still employs open dumping and landfilling. While the need for a complete sustainable energy solution is apparent, solid waste management is also an essential objective, so it makes sense to explore ways in which the two can be joined. Electricity production in combination with energy recovery from flue gases in thermal treatment plants is an integral part of MSW management for many industrialized nations. In Sweden, MSW is considered as an important fuel resource for partially meeting EU environmental targets within cogeneration. However it is normally difficult to justify traditional cogeneration in tropical locations since there is little need for the heat produced. Similarly, MSW-fired cogeneration usually operates with low capacity during non-heating season in Sweden. Therefore, it is very important to find new alternatives for energy applications from waste, such as the implementation of thermally driven cooling processes via absorption cooling in addition to electricity production. The work presented herein concentrates first on an investigation of electricity generation from MSW power plants and various energy applications from waste in tropical urban areas. The potential for various types of absorption chillers driven by MSW power plants for providing both electricity and cooling is of particular interest. Additionally a demonstration and analysis of decentralized thermally driven cooling in district heating network supplied by low temperature heat from a cogeneration of MSW have been conducted. This study aims at developing the best system configuration as well as finding improved system design and control for a combination of district heating and distributed thermally driven cooling. Results show that MSW incineration has the ability to lessen environmental impacts associated with waste disposal, and it can contribute positively towards expanding biomass-based energy production in Southeast Asia. For electricity production, the proposed hybrid dual-fuel (MSW/natural gas) cycles feature attractive electrical efficiency improvements, leading to greenhouse gas emissions reduction. Cogeneration coupled with thermally driven cooling is a solution that holds promise for uniting enhanced sustainability with economic advantages. The system offers great opportunity for primary energy saving, increasing electrical yield and can significantly reduce CO2 emissions per unit of cooling as compared to compression chiller. The demonstration and simulation have also revealed that there is a potential with some modifications and improvements to employ decentralized thermally driven cooling in district heating networks even in temperate regions like Sweden. Thus, expanding cogeneration towards trigeneration can augment the energy supply for summer months in Europe and for year-round cooling in tropical locations. QC 20110408

Published
2011

6. Slutrapport för EU-projekt Polysmart P22374-1

Author

Bales, Chris, Martin, Andrew, and Udomsri, Seksan

Subjects
fjärrkyla, värmedriven kyla, trigenerering, mikro kraftvärme
Abstract

Följande sammanfattar erfarenheterna inom projektet:- Besparing av primärenergi är väldigt beroende av ett fåtal faktorer där primärenergi faktor för generering av el till nätet är avgörande. I projektet använde man termen ”non-renewable primary energy” där förnybara källor som bioenergi och även sopförbränning har väldigt låga värden. Om man använder den europeiska mixen för elproduktion ger enbartkraftvärme nästan alltid besparing av primär energi. Det samma gäller system där man använder förnybar energi eller sopförbränning. För system med trigenerering som använder fossila bränslen måste man ha både hög andel elproduktion från kraftvärmeaggregatet och relativt hög COP för den värmedrivna kylmaskinen om man ska få en besparing av primärenergi.- Systemen är komplexa och man har lärt sig mycket inom projektet. Dock har man inte kommit så långt som standard systempaket.- Elförbrukning är oftast högre än förväntat och i verklighet högre än specificerat.- Värmesänkan i systemet är en nyckelkomponent som är kritiskt för bra systemprestanda. Mer FoU krävs för att få fram komponenter som lämpar sig väl till sådana system (och som skulle också gynna andra system).- Mätning av systemet med tillhörande analys har behövts för att förbättra systemprestanda, vilket är kopplat till att system är komplexa och att det inte fanns en grundläggande kompetens i början av projektet hos alla partners.- Lovande nischmarknader har identifierats men de kräver förmodligen paketlösningar som inte finns på marknaden än.- Man ska enbart täcka baslasten med trigenereringssystem.- Koppling med fjärrvärme kan fungera bra men leverantören måste acceptera relativt höga returtemperaturer.

Published
2010

7. Decentralised Cooling in District Heating Network : Monitoring Results and Calibration of Simulation Model

Author

Udomsri, Seksan, Bales, Chris, Martin, Andrew R., Martin, Viktoria, Udomsri, Seksan, Bales, Chris, Martin, Andrew R., and Martin, Viktoria

Abstract

This article presents the monitoring results of a thermally driven chiller (TDC) driven by district heat from a network supplied by a centralised combined heat and power (CHP) fired with municipal waste. The main objective of this article is to analyse the monitoring results obtained from the demonstration and calibrate a system model that is later used for parametric studies in order to find improved system design and control. The calibration of the system model was made in three stages and all the energy performance figures were within 4% of the measured values. Results show that the TDC system is capable of providing maximum thermal and electrical COP's of 0.50 and 4.6 respectively during the hottest period. For the complete monitoring period during the summer of 2008, the figures were 0.41 and 2.1. The lower figures were due to continuous pump operation inside the TDC even during periods of no cold production and a period when no cold was produced. However the internal pumps inside the TDC have been removed in the new version TDC to increase the electrical COP. System simulation and parametric studies will be employed to further determine how the electrical COP can be improved., QC 20110408

Published
2011
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8. Clean Energy Conversion from Municipal Solid Waste and Greenhouse Gas Mitigation in Southeast Asia

Author

Udomsri, Seksan and Udomsri, Seksan

Abstract

Rapid expansion of industry, urbanization and increasing population, especially in high economic growth regions of Southeast Asia, has dramatically increased the amount of Municipal Solid Waste (MSW). Solid waste management has become a critical issue since the most popular form for waste disposal still employs open dumping. Although the proper handling of MSW is high on the public agenda, issues related to sound MSW management – including recycling programs, waste reduction, and disposal – have not been addressed adequately. Improper waste management causes severe environmental impacts, including groundwater contamination, air quality deterioration, and greenhouse gases emissions. Finding environmentally benign methods related to sound MSW management is of highest priority for this region. In this context waste to energy facilities can play a key role in ensuring a swift and economically viable shift to improved MSW management in Thailandand other areas of Asia. Positive environmental benefits can be achieved in parallel (i.e. reduction of greenhouse gas emissions via minimizing open dumping and expansion of a biomass-based electricity production method). The general objective of this study is to establish sustainable development of MSW management as well as to promote an expansion of biomass-based electricity in Southeast Asia. The energy recovery potential of MSW is analyzed by investigating various types of incineration technologies. Both conventional and more advanced hybrid dual-fuel cycles are considered in this study to evaluate cycle performance (electrical efficiency), CO2 emission and economic evaluation. This study will further construct energy model in order to explore the impact and refine the expected potential of MSW incineration with regard to energy recovery and environmental issues. Electricity demand by the end-user should be formulated and modelled to predict the trend of electricity consumption over the next twenty five years., QC 20120127

Published
2008

9. Possibilities for Various Energy Applications from Municipal Solid Waste Incineration in Bangkok and Hanoi : Combined Heat, Cooling and Power Generation (CHCP) in Southeast Asia

Author

Udomsri, Seksan, Martin, Andrew, Fransson, Torsten, Udomsri, Seksan, Martin, Andrew, and Fransson, Torsten

Abstract

Increasingly intensive efforts are underway for employing renewable energy resources, especially when oil prices are unpredictable like today. Southeast Asia, which features large populations and expansive economies, already has a high energy demand and will grow even more in the future. Biomass is an important renewable energy source in this region, and Municipal Solid Waste (MSW) is an excellent candidate in this context. With industrialization, there has been an increase in the amount of MSW, particularly in large cities like Bangkok and Hanoi. While the need for a complete sustainable energy solution is crucial, solid waste management is also critical for these cities. Energy recovery from flue gases in thermal treatment plants is an integral part of MSW management for many industrialized nations. Often cogeneration can be employed for both enhancing the plant profitability and increasing the overall energy yield. However, it is normally difficult to justify traditional cogeneration in tropical locations since there is little need for the heat produced. The implementation of heat-driven cooling processes like absorption chillers is extremely attractive in this setting. In this paper, the energy applications from MSW in tropical urban areas have been investigated. Also investigated are the opportunities and potentials for various types of MSW power plants for providing both electricity and cooling in an innovative fashion. Results show that there is significant potential for various energy applications i.e. electricity, heatingand cooling from MSW in Southeast Asia. For example, electricity production via conventional incineration of MSW can achieve up to 2TWh per year in Bangkok and nearly this same amount in Hanoi. For heat-driven cooling, absorption chillers provide significant potential to replace electrically driven cooling: such systems are capable of providing 77 MWcooling and 22 MWel from CHP plant using MSW incineration. Heat driven chillers are also cap, QC 20110408

Published
2008

11. The Role of Municipal Solid Waste Incineration for Greenhouse Gas Mitigation : Towards Sustainable Energy Systems in Southeast Asia

Author

Udomsri, Seksan, Martin, Andrew, Fransson, Torsten, Frostell, Björn, Udomsri, Seksan, Martin, Andrew, Fransson, Torsten, and Frostell, Björn

Abstract

This paper presents an evaluation of the potential of municipal solid waste incinerationfor greenhouse gas mitigation and promotion of biomass-based electricity productionin a more sustainable direction in Southeast Asia. Beyond political and environmentalpressures, renewable energy sources are inherently attractive and have become a globalconcern. Resource constraints and rapid growth in world energy demand have alreadybrought oil prices over record levels. Developing countries – especially in high economicgrowth regions of Southeast Asia – often have strained resources and suffer as a result.Enhanced energy security and renewable energy development is high on the publicagenda in Thailand and other countries in Asia. Biomass and municipal solid waste(MSW) have widely been accepted as important renewable energy sources because theymay be used as carbon dioxide (CO2) mitigation concepts. Solid waste management hasbecome a crucial issue in Southeast Asia since the most popular form for waste disposalstill employs open dumping. The overall objective of this investigation is to promotesound MSW management practices including waste-to-energy (WTE) recovery, as wellas to promote an expansion of biomass-based electricity. The energy recovery potentialof MSW is analyzed by investigating various types of incineration technologies. Bothconventional and more advanced hybrid dual-fuel cycles are considered to evaluate cycleperformance (electrical efficiency), CO2 emission and economic aspects. Results show that there is significant potential for environmental and waste management improvements viaMSW incineration. In Bangkok only, power production via hybrid power plants employingintegrated natural gas-fired topping cycles can achieve up to 4 TWh and 10 TWhin 2008 and 2030, respectively. The reduction of CO2 emissions is even more attractivewhen hybrid dual-fuel cycles are combined. CO2 reductions of 670 and 1,800 thousandtons, respectively, can be met in comparison with current, QC 20110408

Published
2008

12. Possibilities for Municipal Solid Waste Incineration and Gas Turbine Hybrid Dual-Fueled Cycles in Thailand

Author

Udomsri, Seksan, Martin, Andrew, Fransson, Torsten, Udomsri, Seksan, Martin, Andrew, and Fransson, Torsten

Abstract

The energy sector is one of the most sensitive base industries inThailandsince almost half of the total energy supply relies on imported sources. Of these, fossil fuels currently dominate electricity production. Exploring underutilized fuels like municipal solid waste (MSW) are vital towards securing a sustainable energy supply while minimizing greenhouse gas emissions. Moreover, a shift from MSW landfilling to incineration, if done with proper environmental controls, can also have positive benefits. This paper investigates the opportunities and potential for new MSW power plants with a focus on theBangkokregion, which produces up to 5 million tons of MSW per year. The energy recovery potential from MSW is analyzed by investigating various types of incineration technologies. In particular hybrid dual-fuel cycles, which integrate MSW and high-quality fuels like natural gas in an innovative fashion, are considered to be promising solutions. Study of plant performance in terms of efficiency and natural gas consumption from different power plant configurations are analyzed. An economic evaluation has been performed in this work to demonstrate the economic impact of the systems under consideration. Preliminary results show that MSW incineration has the potential to cover 8% ofThailand’s electricity; this amount is sufficient to meet the growth of national electrical consumption during a seven year span. InBangkokonly, power production via conventional incineration of MSW can achieve up to 2 TWh of electricity per year and this amount can be increased up to 3 TWh/yr if hybrid power plants employing integrated natural gas-fired topping cycles are employed. The maximum electrical efficiency increased by up to nearly 5% points for all hybrid cycles with natural gas to MSW fuel ratios of 0.3-0.4 NG. All proposed cycles (conventional and hybrid) are economically viable. The economic evaluation results also reveal that hybrid dual-fueled cycles are more economically acceptable, QC 20111116

Published
2006

14. Municipal Solid Waste Management and Waste to Energy Alternatives in Thailand

Author

Udomsri, Seksan, Martin, Andrew, Fransson, Torsten, Udomsri, Seksan, Martin, Andrew, and Fransson, Torsten

Abstract

Rapid expansion of industry, urbanization and increasing population, especially in large cities likeBangkok, has dramatically increased the amount of municipal solid waste (MSW) generated inThailand. However, issues related to sound municipal solid waste management – including recycling programs, waste reduction, and disposal – have not been addressed adequately. Landfilling is currently the most popular form of waste disposal for some 14 million tons of waste annually, although the majority of facilities do not employ modern techniques like landfill gas recovery. It is clear that there is a pressing need to develop and deploy new alternatives in order to minimize the environmental impacts at all links in the municipal solid waste chain. Waste to energy facilities can play a key role in ensuring a swift and economically viable shift to improved municipal solid waste management inThailandand other areas ofAsia. In addition, positive environmental benefits can be achieved in parallel (i.e. reduction of greenhouse gas emissions via minimizing open dumping and expansion of a biomass-based electricity production method). The objective of this work is to investigate municipal solid waste management and electric power production through incineration of municipal solid waste inThailand. This paper contains a survey of current municipal solid waste management practices along with the current energy situation inThailand. The energy recovery potential of municipal solid waste is analyzed by investigating various types of incineration technologies. In particular hybrid dual-fuel cycles, which integrate municipal solid waste and high-quality fuels like natural gas in an innovative fashion, are considered to be promising solutions. Results show that there is significant potential for environmental and waste management improvements via municipal solid waste incineration., QC 20111116

Published
2005

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