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Erschienen in:
Comparative Study of Effect of Cloudiness/Haziness Factor on the Quality of Solar Radiation Kapitel lesen Erstes Kapitel lesen

2014 | OriginalPaper | Buchkapitel

13. Recent Developments in Solar-Powered Micro CHP Systems

verfasst von : Muhyiddine Jradi, Saffa Riffat

Erschienen in: Progress in Sustainable Energy Technologies: Generating Renewable Energy

Verlag: Springer International Publishing

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Abstract

Over the last two decades, the world has exhibited an unprecedented increase in the energy resources demand due to the huge technological and industrial developments accompanied by a tremendous population growth. The fluctuations in the conventional fossil fuel prices and the global warming problem are urging the need for switching towards renewable energy resources. With the buildings and residential sector contributing to a large portion of energy consumption, micro-scale combined heat and power systems (CHP) tend to be an effective solution to satisfy heating and electricity needs for buildings and residential accommodations. Taking advantage of the decentralized production and the capability of being driven by renewable energy resources, micro CHP systems are presented as a feasible substitute to the central production stations especially in rural and developed areas. The current work provides a comprehensive overview for the recent developments in the field of micro CHP systems. Research studies regarding micro CHP systems applications in buildings and residential accommodations are reviewed. Moreover, recent options for micro CHP prime movers are reviewed and compared in terms of the technology development, performance, environmental and economic impacts. Different applications of solar organic Rankine systems in the residential sector are presented including small-scale electricity production and reverse osmosis desalination systems. Discussions are concentrated on micro CHP systems driven by organic Rankine cycle (ORC) which provides more durability and reliability in operation and reduces maintenance levels and safety concerns. In addition, recent studies dealing with solar ORC micro CHP systems are examined. The current work doesn’t only add to the literature on micro CHP systems but also provides recommendations for future design and development of ORC solar-powered micro CHP systems including working fluid selection and solar collector technology used.

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Vorheriges Kapitel Thermodynamic Assessment of Seasonal Stratified Thermal Storage
Nächstes Kapitel Evaluation of Transient Behavior of a Single-Effect Absorption Chiller
Literatur
1.
2.
3.
Li T, Tang D, Li Z, Du J, Zhou T, Jia Y (2012) Development and test of a Stirling engine driven by waste gases for the micro-CHP system. Appl Therm Eng 33–34:119–123CrossRef
4.
Qiu G, Liu H, Riffat S (2011) Expanders for micro-CHP systems with organic Rankine cycle. Appl Therm Eng 31:3301–3307CrossRef
5.
6.
7.
Directive 2004/8/EC of the European Parliament and of the Council (2004) Official J Eur Union L52:50–60
8.
9.
Liu H, Shao Y, Li J (2011) A biomass-fired micro-scale CHP system with organic Rankine cycle (ORC)—thermodynamic modelling studies. Biomass Bioenergy 35:3985–3994CrossRef
10.
De Paepe M, D’Herdt P, Mertens D (2006) Micro-CHP systems for residential applications. Energy Convers Manage 47:3435–3446CrossRef
11.
Harrison J (2004) Micro combined heat & power (CHP) for housing. 3rd International conference on sustainable energy technologies. Nottingham, UK
12.
Kuhn V, Klemes J, Bulatov I (2008) MicroCHP: overview of selected technologies, products and field test results. Appl Therm Eng 16:2039–2048CrossRef
13.
14.
Valkiainen M, Klobut K, Leppäniemi S, Vanhanen J, Varila R (2002) Micro CHP systems based on PEM fuel cell. Status report [only in Finnish]. VTT Tiedotteita-Meddelanden-Research Notes: 2055, Finland: VTT Chemical Technology, Espoo ISBN 951-38-5804-9
15.
D’Accadia M, Sasso M, Sibilio S, Vanoli L (2003) Micro-combined heat and power in residential and light commercial applications. Appl Therm Eng 23:1247–1259CrossRef
16.
Arsalis A, Nielsen M, Kær S (2011) Modeling and parametric study of a 1 kWe HT-PEMFC-based residential micro-CHP system. Int J Hydrogen Energy 36:5010–5020CrossRef
17.
Obara S (2006) Dynamic characteristics of a PEM fuel cell system for individual houses. Int J Hydrogen Energy 30:1278–1294
18.
Georgopoulos N (2002) Application of a decomposition strategy to the optimal synthesis/design and operation of a fuel cell based total energy system. M.S. Thesis, Virginia Tech, Blacksburg, VA, USA
19.
Hawkes AD, Leach MA (2007) Cost-effective operating strategy for residential micro-combined heat and power Energy 32:711–723CrossRef
20.
Briguglio N, Ferraro M, Brunaccini G, Antonucci V (2011) Evaluation of a low temperature fuel cell system for residential CHP. Int. J Hydrogen Energy 36:8023–8029CrossRef
21.
Bernotat K, Sandberg T (2004) Biomass fired small-scale CHP in Sweden and the Baltic states: a case study on the potential of clustered dwellings. Biomass Bioenergy 27:521–530CrossRef
22.
Ren H, Gao W (2010) Economic and environmental evaluation of micro CHP systems with different operating modes for residential buildings in Japan. Energy Build 42:853–861MathSciNetCrossRef
23.
24.
Aoun B (2008) Micro combined heat and power operating on renewable energy or residential building. Ph.D. Thesis, Center for Energy and Processes, Mines ParisTech
25.
26.
27.
28.
Alanne K, Saari A (2004) Sustainable small-scale CHP technologies for buildings: the basis for multi-perspective decision-making. Renew Sustain Energy Rev 8:401–431CrossRef
29.
30.
31.
32.
Nguyen V, Doherty P, Riffat S (2001) Development of a prototype low temperature Rankine cycle electricity generation system. Appl Therm Eng 21:169–181CrossRef
33.
Cong CE, Velautham S, Darus A (2005) Sustainable power: solar thermal driven organic Rankine cycle. Proceedings of the International Conference on Recent Advances in Mechanical and Materials Engineering, Kuala Lumpur, Malaysia 20:68–77
34.
Bao J, Zhao L, Zhan W (2011) A novel auto-cascade low-temperature solar Rankine cycle system for power generation. Solar Energy 85:2710–2719CrossRef
35.
Kosmadakis G, Manolakos D, Kyritsis, S, Papadakis G (2010) Design of a two stage organic Rankine cycle system for reverse osmosis desalination supplied from a steady thermal source. Desalination 250:323–328CrossRef
36.
Manolakos D, Papadakis G, Kyritsis S, Bouzianas K (2007) Experimental evaluation of an autonomous low-temperature solar Rankine cycle system for reverse osmosis desalination. Desalination 203:366–374CrossRef
37.
Wang XD, Zhao L, Wang JL, Zhang WZ, Zhao X Z, Wu W (2010) Performance evaluation of a low temperature solar Rankine cycle system utilizing R245fa. Solar Energy 84:353–364CrossRef
38.
Garcia-Rodriguez L, Delgado-Torres A (2007) Solar-powered Rankine cycles for fresh water production. Desalination 212:319–327CrossRef
39.
Rayegan R, Tao YX (2011) A procedure to select working fluids for Solar Organic Rankine Cycles (ORCs). Renew Energy 36:659–670CrossRef
40.
Oberngerger I (2000) Biomass CHP plant based on an ORC process. Realized EU demonstration project in Admont/Austria, in meeting of IEA Bioenergy, TASK 19. Biomass Combustion
41.
Yagoub W, Doherty P, Riffat S (2006) Solar energy-gas driven micro-CHP system for an office building. Appl Therm Eng 26:1604–1610CrossRef
42.
Ksayer E (2011) Design of an ORC system operating with solar heat and producing sanitary hot water. Eng Proc 6:389–395
43.
Facao J, Palmero-Marrero A, Oliveira A (2009) Analysis of a solar assisted micro-cogeneration ORC system. Int J Low Carbon Technol 3:254–264
44.
Tchanche BF, Papadakis G, Lambrinos G, Frangoudakis A (2009) Fluid selection for a low-temperature solar organic Rankine cycle. Appl Therm Eng 29:2468–2476CrossRef
45.
Saleh B, Koglbauer G, Wendl M, Fischer J (2007) Working fluids for low-temperature organic Rankine cycles. Energy 32:1210–1221CrossRef
46.
Tsai WT (2005) Environmental risk assessment of hydrofluoroethers (HFEs). J Hazard Mater A119:69–78CrossRef
47.
Kalogirou SA (2004) Solar thermal collectors and applications. Prog Energy Combust Sci 30:231–295CrossRef
48.
Brunold S, Frey R, Frei U (1994) A comparison of three different collectors for process heat applications\2 Proceedings of optical materials technology for energy efficiency and solar energy conversion XIII. Proc of SPIE 2255:107–118
Metadaten
Titel
Recent Developments in Solar-Powered Micro CHP Systems
verfasst von
Muhyiddine Jradi
Saffa Riffat
Copyright-Jahr
2014
Buch
Progress in Sustainable Energy Technologies: Generating Renewable Energy

Print ISBN: 978-3-319-07895-3

Electronic ISBN: 978-3-319-07896-0

Copyright-Jahr: 2014

DOI
https://doi.org/10.1007/978-3-319-07896-0_13