Philip Baker scite author profile

The UK has adopted legal obligations concerning climate change which will place increased stresses on the current 'traditional' model of centralised generation. This will include the stimulation of large volumes of intermittent generation, more distributed generation and larger and more variable loads at grid extremities, potentially including large volumes of electric vehicles and heat pumps. Smarter grids have been mooted as a major potential contributor to the decarbonisation of electricity, through facilitation of reduced losses, greater system efficiency, enhanced flexibility to allow the system to deal with intermittent sources and a number of other benefits. This article considers the different policy elements of what will be required for energy delivery in the UK to become smarter, the challenges this presents, the extent to which these are currently under consideration and some of the changes that might be needed in the future.

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UK microgeneration. Part II: technology overviews

Staffell

Baker

Barton

et al. 2010

Proceedings of the Institution of Civil Engineers - Energy

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This paper reviews the current status of microgeneration technologies at the domestic scale. Overviews are given for nine such technologies, grouped into three sections: (a) low carbon heating: condensing boilers, biomass boilers and room heaters, air source and ground source heat pumps; (b) renewables: solar photovoltaic panels, flat plate and evacuated tube solar thermal panels and micro-wind; and (c) combined heat and power: Stirling engines, internal combustion engines and fuel cells. Reviews of the construction, operation and performance are given for the leading commercial products of each technology. Wherever possible, data are presented from the field, giving the actual prices paid by customers, efficiencies and energy yields experienced in real-world use, reliability and durability, and the problems faced by users. This information has a UK focus but is generally relevant in the international context. Two issues are found to be prevalent throughout the microgeneration industry. Total installed costs are a premium and vary substantially between technologies, between specific products (e.g. different models of solar panel), and between individual installations. Performance in the field is found in many cases to differ widely from manufacturers’ quotes and laboratory studies, often owing to installation and operational problems. Despite this, microgeneration has demonstrated substantial improvements over conventional generation in terms of fossil fuel consumption, carbon dioxide emissions and energy cost, provided that the appropriate technologies are employed, being installed and operated correctly according to the load requirements of the house and their physical location.

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Regulatory frameworks for decentralised energy

Woodman

Baker

2008

Energy Policy

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UK microgeneration. Part I: policy and behavioural aspects

Bergman

Giarola

Brett

et al. 2009

Proceedings of the Institution of Civil Engineers - Energy

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A critical review of the literature relating to government policy and behavioural aspects relevant to the uptake and application of microgeneration in the UK is presented. Given the current policy context aspiring to zero-carbon new homes by 2016 and a variety of minimum standards and financial policy instruments supporting microgeneration in existing dwellings, it appears that this class of technologies could make a significant contribution to UK energy supply and low-carbon buildings in the future. Indeed, achievement of a reduction in greenhouse gas emissions by 80% (the UK government’s 2050 target) for the residential sector may entail substantial deployment of microgeneration. Realisation of the large potential market for microgeneration relies on a variety of interrelated factors such as microeconomics, behavioural aspects, the structure of supporting policy instruments and well-informed technology development. This paper explores these issues in terms of current and proposed policy instruments in the UK. Behavioural aspects associated with both initial uptake of the technology and after purchase are also considered.

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Development and Application of an Experimental Abdominal Aortic Aneurysm Model

Baker

Ramnarine

2009

Ultrasound

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A realistic phantom model of the abdominal aortic aneurysm (AAA) is required for experimental studies of the behaviour and nature of AAA and to validate computational models of wall stress and rupture. This study was part of an MSc project which aimed to develop a suitable elastic AAA phantom. A latex AAA phantom was constructed and used in an in vitro flow model to study whether ultrasound measurements of the maximum diameter, distension and distensibility are predictors of AAA rupture. A multigate Doppler system was found to be capable of providing suitable distension measurements, but measurement of the maximum diameter was more reliable using B-mode imaging. Further work is required to help overcome the limitations of the phantom in accounting for a range of mechanical and geometrical properties, and the pathophysiological remodelling process of real AAAs.

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Philip Baker

Policy and regulation for smart grids in the United Kingdom

UK microgeneration. Part II: technology overviews

Regulatory frameworks for decentralised energy

UK microgeneration. Part I: policy and behavioural aspects

Development and Application of an Experimental Abdominal Aortic Aneurysm Model

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