Publications
231 results found
Gross R, Heponstall P, Blyth W, et al., 2007, Investment in Electricity Generation: The role of costs, incentives and risks, Publisher: UKERC
Hawkes AD, Aguiar P, Croxford B, et al., 2007, Solid oxide fuel cell micro combined heat and power system operating strategy: Options for provision of residential space and water heating, JOURNAL OF POWER SOURCES, Vol: 164, Pages: 260-271, ISSN: 0378-7753
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- Citations: 72
Hawkes AD, 2007, CODEGen MILP (Mixed Integer Linear Programming), London, UK, Publisher: ICEPT, Imperial College London
Purchala K, Belmans R, Exarchakos L, et al., 2007, Distributed generation and the grid integration issues, KULeuven, Belgium, Publisher: EU-SUSTEL Project (European Sustainable Electricity)
Hawkes AD, Aguiar P, Hernandez-Aramburo CA, et al., 2006, Techno-economic modelling of a solid oxide fuel cell stack for micro combined heat and power, Journal of Power Sources, Vol: 156, Pages: 321-333, ISSN: 0378-7753
Hawkes AD, Leach MA, 2006, The Economics of Simple Microgrids: The Case of the United Kingdom, 2nd International Conference on Integration of Renewable and Distributed Energy Resources
Pantaleo A, Tiravanti G, Hawkes AD, et al., 2006, Overview and Techno-Economic Assessment of Small Scale Bioenergy CHP Plants in the Italian and UK Energy Markets, Cambridge Annual Energy Symposium: “Decentralised energy in the UK”
Hawkes AD, Leach MA, 2006, The Economic Value and Carbon Dioxide Emission Implications of Community Heating Network versus Micro Combined Heat and Power Energy Provision in the UK, 6th BIEE Academic Conference
Farinelli U, Gusmerotti M, Cosijns L, et al., 2006, Anticipation of Future Energy Demand Final Report, Publisher: EUSUSTEL
Hawkes AD, Leach MA, 2005, Solid oxide fuel cell systems for residential micro-combined heat and power in the UK: Key economic drivers, J OF POWER SOURCES, Vol: 149, Pages: 72-83
Hawkes AD, Tiravanti G, Leach MA, 2005, Routes to energy efficiency: complementary energy service products in the UK residential sector, ECEEE 2005 Summer Study
Hawkes AD, Leach MA, 2005, Impacts of Temporal Precision in Optimisation Modelling of Micro Combined Heat and Power, Energy, Vol: 30, Pages: 1759-1779
Hawkes AD, Leach MA, 2005, The Capacity Credit of Micro Combined Heat and Power, Energy Policy, Vol: 36, Pages: 1457-1469
Hawkes AD, Leach MA, 2005, SOFC Systems For Micro-CHP: Modelling Key Characteristics and Analysing Sensitivities, Fuel Cell Seminar
Hawkes AD, 2004, T&D Emissions for Low-Pressure Gas Distributed Generation in the UK: A Brief Analysis, Publisher: UK Power
Hawkes AD, 2004, CODEGen (Cost Optimisation of Decentralised Energy Generation), London, UK, Publisher: ICEPT, Imperial College London
Hawkes AD, Staffell I, Barton J, et al., Microgeneration, Making the Transition to a Secure and Low-Carbon Energy System - Synthesis Report, Editors: Skea, London, UK, Publisher: UKERC
Exarchakos L, Hawkes A, Leach M, Ireland, The European Union, 25 Different Countries, 25 Different Energy Policies...? An Overview, Editors: Cosijns, D'haeseleer, Pages: 162-171
Hawkes AD, Techno-Economic Assessment of Small and Micro-CHP Systems, Small- and micro-combined heat and power systems, Editors: Beith, Publisher: Woodhead
This chapter provides an introduction to the economic benefits that small scale and micro-CHP systems can provide, and goes on to illustrate a specific techno-economic modelling method for analysis of CHP systems. Beginning with a brief review of how, why, and where CHP and decentralised energy systems can provide economic value, it then discusses the sometimes ill-defined concept of techno-economics, and the variety of modelling techniques that underpin it. An optimisation method designed to examine the technical and site characteristics that can lead to commercially successful CHP is then presented, followed by its application to study the case of residential micro-CHP in the United Kingdom. The results of this analysis demonstrate that the heat-to-power ratio of the micro-CHP prime mover is the key technical characteristic that determines economic and environmental performance, in addition to site specific attributes such as onsite electricity demand and the presence of significant thermal demand. Going forward, the emerging tension between CHP and heat pumps for space and water heating applications is touched on in the context of long term stringent emissions reduction targets.
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