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Renewable Energy (renewable + energy)
Terms modified by Renewable Energy Selected AbstractsWind, Fire and Water: Renewable Energy and Birds Proceedings of the British Ornithologists' Union Annual Spring Conference 2005 University of Leicester, 1,3 April 2005IBIS, Issue 2006ROWENA H. W. LANGSTON Guest Editor No abstract is available for this article. [source] Opening address to Wind, Fire and Water: Renewable Energy and BirdsIBIS, Issue 2006ELLIOT MORLEY First page of article [source] The Future of Renewable Energy in Australia: A Test for Cooperative Federalism?AUSTRALIAN JOURNAL OF PUBLIC ADMINISTRATION, Issue 1 2009Stephen Jones In the context of the Australian federal system industry development will be influenced by the policies of each sphere of government. When announcing a set of policies in 1997 to develop the renewable energy industry the Australian federal government acknowledged the need for a cooperative approach between all governments and industry. The objective of this article is to analyse the government policies over the 1997,2007 period to promote the development of the renewable energy industry in Australia. The article highlights a number of factors that have served as barriers to the development of the industry. The research provides important insight into the difficulties associated with establishing cooperative national arrangements in areas of state government responsibility in the Australian federation. The lessons also inform the current debate on the policy initiatives needed to more effectively reduce greenhouse gas emissions from stationary energy from the increased availability of renewable energy. [source] Output power leveling of wind turbine generators using pitch angle control for all operating regions in wind farmELECTRICAL ENGINEERING IN JAPAN, Issue 4 2007Tomonobu Senjyu Abstract Effective utilization of renewable energies such as wind energy instead of fossil fuels is desirable. Wind energy is not constant and windmill output is proportional to the cube of the wind speed, which causes the generated power of wind turbine generators (WTGs) to fluctuate. In order to reduce the output power fluctuation of wind farms, this paper presents an output power leveling control strategy for a wind farm based on both the average wind farm output power and the standard deviation of the wind farm output power, a cooperative control strategy for WTGs, and pitch angle control using a generalized predictive controller (GPC) in all WTG operating regions. Simulation results using an actual detailed model for wind farm systems show the effectiveness of the proposed method. © 2007 Wiley Periodicals, Inc. Electr Eng Jpn, 158(4): 31, 41, 2007; Published online in Wiley InterScience (www.interscience. wiley.com). DOI 10.1002/eej.20448 [source] Hydrogen Economy Options for AustraliaASIA-PACIFIC JOURNAL OF CHEMICAL ENGINEERING, Issue 5-6 2004B. Mclellan Global concerns over the effects of current carbon dioxide (CO2) emissions have lead to extensive research on the use of hydrogen as a potential energy carrier for a lower emissions society. Hydrogen can be produced from both fossil and renewable energy sources. The hydrogen economy, in which hydrogen will be a carrier of energy from renewable sources, is a long-term development and any increasing demand for hydrogen will probably be covered initially from fossil sources. Technologies for hydrogen generation from renewable energies are being explored, whereas technologies for hydrogen production from fossil fuels have to a certain extent reached maturity. This paper addresses the major hydrogen generation processes and utilisation technology (fuel cells) currently available for the move from a fossil fuelsbased economy to a hydrogen economy. In particular, it illustrates the applicability of different hydrogen sources using Australia as an example. [source] The Economics of Carbon Abatement: An Integrated Diagrammatic FrameworkECONOMIC PAPERS: A JOURNAL OF APPLIED ECONOMICS AND POLICY, Issue 2 2009Ross Guest Q54; Q52; Q48 The aim of this article is to present the economics of carbon abatement in an integrated framework with application to key policy questions. While the core ideas are well known, the innovation here is to integrate the marginal costs and benefits of carbon abatement with the market for carbon permits in a diagrammatic framework. This framework is then used to analyse a range of issues in the public debate about carbon abatement and carbon trading schemes, such as special assistance for certain industries, tax concessions on particular carbon-intensive goods such as petrol, government subsidies for renewable energy, and the effects of uncertainty and technological change. [source] Computation of locational and hourly maximum output of a distributed generator connected to a distribution feederELECTRICAL ENGINEERING IN JAPAN, Issue 2 2009Yasuhiro Hayashi Abstract Recently, the total number of distributed generation such as photovoltaic generation systems and wind turbine generation systems connected to a distribution network has drastically increased. Distributed generation using renewable energy can reduce the distribution loss and emission of CO2. However, the distribution network with the distributed generators must be operated while maintaining the reliability of the power supply and power quality. In this paper, the authors propose a computational method to determine the maximum output of a distributed generator under operational constraints [(1) voltage limit, (2) line current capacity, and (3) no reverse flow to bank] at arbitrary connection points and hourly periods. In the proposed method, a three-phase iterative load flow calculation is applied to evaluate the above operational constraints. The three-phase iterative load flow calculation has two simple procedures: (Procedure 1) addition of load currents from the terminal node of the feeder to root one, and (Procedure 2) subtraction of voltage drop from the root node of the feeder to terminal one. In order to check the validity of the proposed method, numerical simulations are performed for a distribution system model. Furthermore, the characteristics of locational and hourly maximum output of a distributed generator connected to a distribution feeder are analyzed using several numerical examples. © 2009 Wiley Periodicals, Inc. Electr Eng Jpn, 167(2): 38,47, 2009; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/eej.20610 [source] Microbial Fuel Cells in Relation to Conventional Anaerobic Digestion TechnologyENGINEERING IN LIFE SCIENCES (ELECTRONIC), Issue 3 2006H. Pham Abstract Conventional anaerobic digestion based bioconversion processes produce biogas and have as such been widely applied for the production of renewable energy so far. An innovative technology, based on the use of microbial fuel cells, is considered as a new pathway for bioconversion processes towards electricity. In comparison with conventional anaerobic digestion, the microbial fuel cell technology holds some specific advantages, such as its applicability for the treatment of low concentration substrates at temperatures below 20,°C, where anaerobic digestion generally fails to function. This provides some specific application niches of the microbial fuel cell technology where it does not compete with but complements the anaerobic digestion technology. However, microbial fuel cells still face important limitations in terms of large-scale application. The limitations involve the investment costs, upscale technical issues and the factors limiting the performance, both in terms of anodic and cathodic electron transfer. Research to render the microbial fuel cell technology more economically feasible and applicable should focus on reactor configuration, power density and the material costs. [source] Integrated environmental product innovation and impacts on company competitiveness: a case study of the automotive industry in the region of MunichENVIRONMENTAL POLICY AND GOVERNANCE, Issue 1 2008Ursula Triebswetter Abstract This paper examines the impact of integrated environmental product innovations on company competitiveness. In a regional case study about automotive, rail and commercial vehicle firms in Southern Germany it is found that integrated environmental product innovation is driven by factors such as regulatory pressure, the search for competitive advantages and technological lead as well as customer pressure. Regulatory pressure includes sector policies, such as emission standards, and wider non-sector energy conservation issues, at both national and international levels. For instance, EU directives on future use of renewable energy as well as national goals for reaching the Kyoto protocol play an important role in driving innovation. The study finds that integrated environmental product innovations driven by regulatory pressure produce similar competitiveness impacts as innovations undertaken voluntarily by companies. Such results yield supporting evidence for the so-called ,Porter hypothesis', which assumes that environmental legislation stimulates innovation and leads to ,win,win' situations , the simultaneous reduction of pollution and increase in productivity. Copyright © 2008 John Wiley & Sons, Ltd and ERP Environment. [source] Wind power and ,the planning problem': the experience of WalesENVIRONMENTAL POLICY AND GOVERNANCE, Issue 5 2007Richard Cowell Abstract Across Europe, spatial planning has acquired an important role in steering wind power to more socially acceptable locations. However, the tendency for planning decisions to become a focus of opposition has also led to planning being represented as ,a problem' in meeting renewable energy targets. Using Jessop's dialectical relationship between modes and objects of governance, this paper seeks to understand why certain states are inclined to resolve ,the planning problem' for wind through strengthened national control. The case study is the Welsh Assembly Government's 2005 planning guidance on renewable energy, which superimposes centrally-determined ,Strategic Search Areas' for large-scale, onshore wind farm development onto local decision-making processes. Motivations for adopting this approach reflect the UK's centralizing planning culture, and beliefs that local planning processes will not yield sufficient sites to meet targets for wind power expansion. Responses to this planning guidance suggest that it may stabilizing the regulatory conditions for large-scale wind investment in the short term, in some parts of Wales, but faces a number of points of vulnerability in the longer term. Copyright © 2007 John Wiley & Sons, Ltd and ERP Environment. [source] The evolving UK wind energy industry: critical policy and management aspects of the emerging research agendaENVIRONMENTAL POLICY AND GOVERNANCE, Issue 1 2006Peter A. Strachan Abstract In recent years, renewable energy , and in particular wind power , has come to the fore of both international and UK national environmental policy debates. In addition to helping to meet its Kyoto obligations, the British Government has indicated its desire for a much larger slice of the international wind energy market, and has consequently developed a national strategy to stimulate a more vibrant UK wind energy industry. With this in mind, the British Government's Climate Change Programme (DETR, 2000) and more recent Energy White Paper (DTI, 2003) outline the UK energy strategy for the coming two decades, with wind power featuring as a core component. This article critically considers the prospects for the development of a wind energy industry in the UK and introduces five strategic opportunities and five strategic barriers in this evolving segment of the energy market. The article concludes with recommendations to enhance public acceptance of wind energy and four important areas for future research are outlined. Copyright © 2006 John Wiley & Sons, Ltd and ERP Environment. [source] Implementing the strategic environmental assessment (SEA) Directive in the South West of EnglandENVIRONMENTAL POLICY AND GOVERNANCE, Issue 3 2004Clare Brooke The South West of England is famous as being an area rich in environmental features and heritage. The tools available to local authorities and other organizations to protect this valued environment are being expanded to include strategic environmental assessment (SEA). SEA is being introduced under a European Community directive, which will be incorporated into UK law in 2004. The directive will require national, regional and local authorities to carry out environmental assessment on certain plans and programmes that they promote. To ensure that the effectiveness of SEA in the South West is maximized, the South West Regional Assembly is working with local authorities and regional partners to consider the implications of the directive, and help the region prepare for its implementation. The aim of the project is to more clearly define the potential for SEA within the South West, examine the barriers that organizations may face when implementing the directive and establish good practice within the region. Work has been carried out to examine specific requirements of the SEA Directive, including the baseline data requirements for undertaking SEAs, and methodological differences between SEA and sustainability appraisals. Existing practice was examined to consider how current planning processes can be adapted to fulfil the requirements of the directive. Case studies were also undertaken to examine the issues around implementing the directive for non-land-use plans, including transport, economic development, waste management, renewable energy and flood management. Copyright © 2004 John Wiley & Sons, Ltd and ERP Environment. [source] Safety evaluation of sewage-sludge-derived fuels by comparison with other fuelsFIRE AND MATERIALS, Issue 4 2009Xin-Rui Li Abstract The utility of sewage sludge as a biomass fuel is taken as a new approach to recycle unwanted wastes as renewable energy and deal with global warming. However, safety caring of this new type of fuel is a premise before it is practically used in boilers. Thermal behaviors of four sludge-derived fuels which are under development were examined by several calorimeters (such as thermogravimetry/differential thermal analysis, C80 and thermal activity monitor) at temperature ramp and isothermal conditions. Heat generation at relatively low temperatures was observed. The corresponding spontaneous ignition was detected in an adiabatic spontaneous ignition tester at 80,C in some sludge species. Moreover, a certain amount of gaseous evolution was accompanied when the sludge fuels were stored at room temperature and at 60,C. Oxidation is mainly responsible for the heat and gas release from the sludge fuels. The hazards of the sewage sludge fuels were also compared with a bituminous coal and a refuse-derived fuel, which have the main feature of spontaneous ignition. Copyright © 2009 John Wiley & Sons, Ltd. [source] Assessment of Fuel-Cell-Based Passenger CarsFUEL CELLS, Issue 3 2004T. Grube Abstract Highly efficient energy conversion systems with fuel cells for vehicles, as well as for stationary and portable applications, are currently being discussed all over the world. Fuel cell technology is expected to help reduce primary energy demand and emissions of limited and climate-relevant pollutants. The high flexibility of fuel cell systems with respect to energy carriers opens up possibilities of modifying the energy sector in the long term. Introducing new fuels based on low-carbon, or in the long term carbon-free, energy carriers can contribute to reducing greenhouse gas emissions as well as locally and regionally active atmospheric pollutants. The use of hydrogen as feed gas for fuel cells on the basis of it being a non-fossil, renewable energy, leads to special benefits with respect to conserving resources and climate protection, but at present still represents a medium- to long-term prospect. A major milestone on the road to market success for all energy conversion systems with fuel cells is the reduction of costs. The definition of the ,appropriate" fuel represents a serious obstacle to the market introduction of fuel-cell-powered vehicles. Presenting data from a well-to-wheel analysis of various vehicle fuel systems at FZJ this article aims to discuss the potential benefits of future vehicle concepts with fuel cells in terms of primary energy use and greenhouse gas emissions. Results from a comparison of international studies on this subject will be used to identify relevant assumptions that lead to different answers in the evaluation process. [source] From renewable energy to fire risk reduction: a synthesis of biomass harvesting and utilization case studies in US forestsGCB BIOENERGY, Issue 3 2009A. M. EVANS Abstract The volatile costs of fossil fuels, concerns about the associated greenhouse gas emissions from these fuels, and the threat of catastrophic wildfires in western North America have resulted in increased interest and activity in the removal and use of woody biomass from forests. However, significant economic and logistical challenges lie between the forests and the consumers of woody biomass. In this study, we provide a current snapshot of how biomass is being removed from forests and used across the United States to demonstrate the wide variety of successful strategies, funding sources, harvesting operations, utilization outlets, and silvicultural prescriptions. Through an analysis of 45 case studies, we identified three themes that consistently frame each biomass removal and utilization operation: management objectives, ecology, and economics. The variety and combination of project objectives exemplified by the case studies means biomass removals are complex and difficult to categorize for analysis. However, the combination of objectives allows projects to take advantage of unique opportunities such as multiple funding sources and multiparty collaboration. The case studies also provide insight into the importance of ecological considerations in biomass removal both because of the opportunity for forest restoration and the risk of site degradation. The national view of the economic aspects of biomass removal provided by this wide variety of case studies includes price and cost ranges. This study is an important first step that helps define woody biomass removals which are becoming an essential part of forestry in the 21st century. [source] Preface to special issue on electrical energy storage for future transportation and renewable energyINTERNATIONAL JOURNAL OF ENERGY RESEARCH, Issue 2 2010Kandler Smith No abstract is available for this article. [source] Success factors for the effective implementation of renewable energy options for rural electrification in India,Potentials of the CLEAN DEVELOPMENT MECHANISMINTERNATIONAL JOURNAL OF ENERGY RESEARCH, Issue 12 2008Gudrun Elisabeth Benecke Abstract Developing countries as well as international development assistance have for a long time aspired to combat energy poverty in rural areas of developing countries. However, until now a major part of national and international public and private attempts to provide affordable and stable energy supply have failed due to various economic, political, social and institutional obstacles. This situation is reflected in case of India where in comparison with other South Asian states the status of rural electrification and of energy supply are in a dismal state despite the promotion of renewable energy and rural electrification as early as from the 1960s. Embedded in the global context of the international climate change regime, the Clean Development Mechanism (CDM) of the Kyoto Protocol has now emerged as a new option to facilitate investment in climate change mitigating projects. In this respect, promoting the deployment of renewable energy through this project-based mechanism opens new avenues for rural electrification. The main objective of this paper is, hence, to examine the context conditions and factors determining the effective application of renewable energy options for rural electrification in a developing country context, namely India. Understanding contextual requirements for renewable energy investment has proved imminently important in order to appreciate the potentials provided by new market-based mechanisms such as the CDM for rural poverty alleviation. Comparative political science case study research methods are applied to the analysis of CDM biomass projects in the context of the four Indian states of Tamil Nadu, Maharashtra, Punjab and Andhra Pradesh. This allows for the conclusion that socio-political and historic framework conditions matter for the implementation of new renewable energy options. Copyright © 2008 John Wiley & Sons, Ltd. [source] Design and performance analysis of impulse turbine for a wave energy power plantINTERNATIONAL JOURNAL OF ENERGY RESEARCH, Issue 1 2005A. Thakker Abstract Wave energy is the most abundant source of renewable energy in the World. For the last two decades, engineers have been investigating and defining different methods for power extraction from wave motion. Two different turbines, namely Wells turbine and impulse turbine with guide vanes, are most commonly used around the world for wave energy power generation. The ultimate goal is to optimize the performance of the turbine under actual sea conditions. The total research effort has several strands; there is the manufacture and experimental testing of new turbines using the Wave Energy Research Team's (WERT) 0.6 m turbine test rig, the theoretical and computational analysis of the present impulse turbine using a commercial software package and finally the prediction of the performance of the turbine in a representative wave power device under real sea conditions using numerical simulation. Also, the WERT 0.6 m turbine test rig was upgraded with a data acquisition and control system to test the turbine in the laboratory under real sea conditions using the computer control system. As a result, it is proven experimentally and numerically that the turbine efficiency has been raised by 7% by reducing the hub-to-tip ratio from 0.7 to 0.6. Effect of tip clearance on performance of the turbine has been studied numerically and designed tip clearance ratio of 1% has been validated. From the numerical simulation studies, it is computed that the mean conversion efficiency is reduced around 5% and 4.58% due to compressible flow and damping effects inside OWC device. Copyright © 2005 John Wiley & Sons, Ltd. [source] Assessing the economic impact of wind farms on tourism in Scotland: GIS, surveys and policy outcomesINTERNATIONAL JOURNAL OF TOURISM RESEARCH, Issue 3 2010Geoff Riddington Abstract The impact of wind farms on the environment and subsequently on tourism is the subject of much heated debate. The research was concerned with making a robust quantitative assessment of the economic impact, to help resolve the debate and inform government policy on planning for renewable energy. In addition to a broad description of the intercept surveys and the advanced local economic models used to ascertain impact, the research details two novel elements; a Geographic Information Systems (GIS) model for the analysis of the number of tourists and bed spaces exposed to wind farms and a large internet-based survey of the willingness to pay for landscape. The research found a very small but significant negative economic impact and, on the basis of the survey information, suggests ways of minimising this impact. Both GIS modelling and internet surveying were found to be extremely useful and, it is suggested, both should become standard tools for the tourism researcher. Copyright © 2009 John Wiley & Sons, Ltd. [source] Urban sustainability and governance: issues for the twenty-first centuryINTERNATIONAL SOCIAL SCIENCE JOURNAL, Issue 193-194 2008Françoise Lieberherr-Gardiol The notion of urban sustainability that emerged at the end of the 1980s falls within the scope of sustainable development, a concept that arose in reaction to the model of technological and economic growth that triumphed after World War II. It comes into play as an attempt to link and put into perspective economic effectiveness, social equity and ecological balance. The sustainability approach focuses on how urban societies organise their space, their way of life and transportation, their technologies of production and consumption, as well as their governance and dynamics. Applied to cities, sustainable development can be defined in terms of concrete objectives: efforts to combat wasted energy, space and natural resources, and to reduce pollution, the problems of sanitation and the degradation of the environment. To the extent that governance is established and maintained with regard to the decision-making powers of public authorities faced with demands by divergent but equally legitimate interest groups, the responsibilities of citizens and the involvement of private stakeholders, sustainable innovations will succeed. The International Platform on Sustainable Urban Development, put in place by S-DEV Geneva 05, makes it possible to illustrate the problem by presenting the priority issues in sustainability, along with experiments undertaken by cities that were invited to present their innovations in renewable energy, soft mobility, green planning, systematic recycling, appropriate sanitation, urban agriculture and participatory governance. [source] Offshore renewable energy: ecological implications of generating electricity in the coastal zoneJOURNAL OF APPLIED ECOLOGY, Issue 4 2005ANDREW B. GILL Summary 1Global-scale environmental degradation and its links with non-renewable fossil fuels have led to an increasing interest in generating electricity from renewable energy resources. Much of this interest centres on offshore renewable energy developments (ORED). The large scale of proposed ORED will add to the existing human pressures on coastal ecosystems, therefore any ecological costs and benefits must be determined. 2The current pressures on coastal ecology set the context within which the potential impacts (both positive and negative) of offshore renewable energy generation are discussed. 3The number of published peer-review articles relating to renewable energy has increased dramatically since 1991. Significantly, only a small proportion of these articles relate to environmental impacts and none considers coastal ecology. 4Actual or potential environmental impact can occur during construction, operation and/or decommissioning of ORED. 5Construction and decommissioning are likely to cause significant physical disturbance to the local environment. There are both short- and long-term implications for the local biological communities. The significance of any effects is likely to depend on the natural disturbance regime and the stability and resilience of the communities. 6During day-to-day operation, underwater noise, emission of electromagnetic fields and collision or avoidance with the energy structures represent further potential impacts on coastal species, particularly large predators. The wider ecological implications of any direct and indirect effects are discussed. 7Synthesis and applications. This review demonstrates that offshore renewable energy developments will have direct and, potentially, indirect consequences for coastal ecology, with these effects occurring at different scales. Ecologists should be involved throughout all the phases of an ORED to ensure that appropriate assessments of the interaction of single and multiple developments with the coastal environment are undertaken. [source] Carbon-based stock feed additives: a research methodology that explores ecologically delivered C biosequestration, alongside live weights, feed use efficiency, soil nutrient retention, and perennial fodder plantationsJOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE, Issue 2 2010Mark P McHenry Abstract There is considerable interest in reliable and practical methods to sequester carbon (C) into agricultural soils to both reduce atmospheric greenhouse gas concentrations and improve conventional productivity. This article outlines a research methodology to refine the efficacy and economics of using long-lived C species (biochars) as stock feed additives, produced from farm waste biomass, for ecologically delivered soil biosequestration, while generating renewable bioenergy. This article also draws attention to potential parallel outputs including annual feed use efficiency, fodder species expansion, soil nutrient retention, aquatic habitat protection, and forestry revegetation, using nitrogen-fixing perennial fodder plant species. A methodology to generate parallel results including standing fodder tree C sequestration, optimised production of Acacia spp. biochar, animal growth on high-tannin fodder with biochar feed additives, soil nutrient and stable C fractions, and economics of Acacia spp. bioenergy production. This form of research is contextually dependent on the regional agricultural production system, legislation, and surrounding ecosystem. Therefore, this article suggests the use of a scenario approach to include regionally specific levels of biochar integration with respect to the local prices for C, fossil fuels, meat and livestock, fertilisers, fodder, feed additives, water, renewable energy, revegetation and capital. Copyright © 2009 Society of Chemical Industry [source] Experts address the question: "Given its relatively high cost, is renewable energy the answer for SIDS?"NATURAL RESOURCES FORUM, Issue 2 2007David Barrett First page of article [source] Der steinige Weg von der Theorie in die Praxis des Emissionshandels: Die EU-Richtlinie zum CO2 -Emissionshandel und ihre nationale UmsetzungPERSPEKTIVEN DER WIRTSCHAFTSPOLITIK, Issue 1 2005Patrick Graichen In this article we firstly critically discuss the institutional rules set by the EU-directive. Secondly, we analyse consequences for the national allocation plans. Furthermore, we discuss the allocation rules for emission permits, which are currently under consideration for Germany. In particular we focus on output-based versus emission-based allocation rules and on treatments of new entrants and firm exits. We argue that free permits should only be allocated due to either historic output or historic emissions. We further argue that new entrants should not get any free permits and that firms which leave the market should not lose their permits assigned for future periods. Finally we discuss interaction of emission trading and related instruments such as eco-taxes, and subsidies for renewable energy. [source] PV thermal systems: PV panels supplying renewable electricity and heatPROGRESS IN PHOTOVOLTAICS: RESEARCH & APPLICATIONS, Issue 6 2004Dr. Wim G. J. van Helden Abstract With PV Thermal panels sunlight is converted into electricity and heat simultaneously. Per unit area the total efficiency of a PVT panel is higher than the sum of the efficiencies of separate PV panels and solar thermal collectors. During the last 20 years research into PVT techniques and concepts has been widespread, but rather scattered. This reflects the number of possible PVT concepts and the accompanying research and development problems, for which it is the general goal to optimise both electrical and thermal efficiency of a device simultaneously. The aspects that can be optimised are, amongst others, the spectral characteristics of the PV cell, its solar absorption and the internal heat transfer between cells and heat-collecting system. Another important level of optimisation is for the PVT device geometry and the integration into a system. The electricity and heat demand and the temperature level of the heat determine the choice for a certain system set-up. With an optimal design, PVT systems can supply buildings with 100% renewable electricity and heat in a more cost-effective manner than separate PV and solar thermal systems and thus contribute to the long-term international targets on implementation of renewable energy in the built environment. Copyright © 2004 John Wiley & Sons, Ltd. [source] Using wind to power a groundwater circulation well,preliminary resultsREMEDIATION, Issue 4 2004Andrew Curtis Elmore In areas of the country where the U.S. Department of Energy has classified the available wind resources as Class 3 or greater, the use of wind turbines to provide power to relatively small remediation systems such as groundwater circulation wells may be technically and economically feasible. Groundwater circulation wells are a good candidate technology to couple with renewable energy, because the remediation system removes contamination from the subject aquifer with no net loss of the groundwater resource, while the wind turbine does not create potentially harmful air emissions. Wind data collected in the vicinity of the former Nebraska Ordnance Plant Superfund site were used to select a wind turbine system to provide a portion of the energy necessary to power a groundwater circulation well located in an area of high trichloroethylene groundwater contamination. Because utility power was already installed at the remediation system, a 10 kW grid inter-tie wind turbine system supplements the utility system without requiring batteries for energy storage. The historical data from the site indicate that the quantity of energy purchased correlates poorly with the quantity of groundwater treated. Preliminary data from the wind turbine system indicate that the wind turbine provides more energy than the remediation system treatment components and the well submersible pump require on a monthly average. The preliminary results indicate that the coupling of wind turbines and groundwater circulation wells may be an attractive alternative in terms of the system operation time, cost savings, and contaminant mass removal. © 2004 Wiley Periodicals, Inc. [source] Black gold to green gold: regional energy policy and the rehabilitation of coal in response to climate changeAREA, Issue 1 2009Frances Drake Energy production has come under increasing scrutiny as concerns about energy security and climate change have risen. In the UK changes in government structure and privatisation of the electricity industry have led to the emergence of multi-level governance. This means that decisions on how to reduce carbon dioxide emissions from the electricity-generating sector should no longer be solely a national policy decision. Previous studies have sought to explore how renewable energy may develop under multi-level governance, but this paper pays attention to a traditional fossil fuel source, coal, which is still an important means of electricity generation. Coal is the most abundant fossil fuel and advocates argue that carbon capture and storage techniques could make coal ,clean', paving the way for a long-term, secure and low emission way to produce energy. This study focuses on the Yorkshire and Humber Region, which has had a long association with coal mining and looks at the implications of this as the region seeks to develop a climate change action plan and an energy strategy within the new regional governance structures. The paper argues that the regional networks developed to address climate change are influenced by existing social power structures and alliances. The region as a territorial structure becomes a useful device in promoting national priorities. [source] The Future of Renewable Energy in Australia: A Test for Cooperative Federalism?AUSTRALIAN JOURNAL OF PUBLIC ADMINISTRATION, Issue 1 2009Stephen Jones In the context of the Australian federal system industry development will be influenced by the policies of each sphere of government. When announcing a set of policies in 1997 to develop the renewable energy industry the Australian federal government acknowledged the need for a cooperative approach between all governments and industry. The objective of this article is to analyse the government policies over the 1997,2007 period to promote the development of the renewable energy industry in Australia. The article highlights a number of factors that have served as barriers to the development of the industry. The research provides important insight into the difficulties associated with establishing cooperative national arrangements in areas of state government responsibility in the Australian federation. The lessons also inform the current debate on the policy initiatives needed to more effectively reduce greenhouse gas emissions from stationary energy from the increased availability of renewable energy. [source] Organic Polyaromatic Hydrocarbons as Sensitizing Model Dyes for Semiconductor NanoparticlesCHEMSUSCHEM CHEMISTRY AND SUSTAINABILITY, ENERGY & MATERIALS, Issue 4 2010Yongyi Zhang Abstract The study of interfacial charge-transfer processes (sensitization) of a dye bound to large-bandgap nanostructured metal oxide semiconductors, including TiO2, ZnO, and SnO2, is continuing to attract interest in various areas of renewable energy, especially for the development of dye-sensitized solar cells (DSSCs). The scope of this Review is to describe how selected model sensitizers prepared from organic polyaromatic hydrocarbons have been used over the past 15 years to elucidate, through a variety of techniques, fundamental aspects of heterogeneous charge transfer at the surface of a semiconductor. This Review does not focus on the most recent or efficient dyes, but rather on how model dyes prepared from aromatic hydrocarbons have been used, over time, in key fundamental studies of heterogeneous charge transfer. In particular, we describe model chromophores prepared from anthracene, pyrene, perylene, and azulene. As the level of complexity of the model dye-bridge-anchor group compounds has increased, the understanding of some aspects of very complex charge transfer events has improved. The knowledge acquired from the study of the described model dyes is of importance not only for DSSC development but also to other fields of science for which electronic processes at the molecule/semiconductor interface are relevant. [source] Generation, Capture, and Utilization of Industrial Carbon DioxideCHEMSUSCHEM CHEMISTRY AND SUSTAINABILITY, ENERGY & MATERIALS, Issue 3 2010Andrew Abstract As a carbon-based life form living in a predominantly carbon-based environment, it is not surprising that we have created a carbon-based consumer society. Our principle sources of energy are carbon-based (coal, oil, and gas) and many of our consumer goods are derived from organic (i.e., carbon-based) chemicals (including plastics, fabrics and materials, personal care and cleaning products, dyes, and coatings). Even our large-volume inorganic-chemicals-based industries, including fertilizers and construction materials, rely on the consumption of carbon, notably in the form of large amounts of energy. The environmental problems which we now face and of which we are becoming increasingly aware result from a human-induced disturbance in the natural carbon cycle of the Earth caused by transferring large quantities of terrestrial carbon (coal, oil, and gas) to the atmosphere, mostly in the form of carbon dioxide. Carbon is by no means the only element whose natural cycle we have disturbed: we are transferring significant quantities of elements including phosphorus, sulfur, copper, and platinum from natural sinks or ores built up over millions of years to unnatural fates in the form of what we refer to as waste or pollution. However, our complete dependence on the carbon cycle means that its disturbance deserves special attention, as is now manifest in indicators such as climate change and escalating public concern over global warming. As with all disturbances in materials balances, we can seek to alleviate the problem by (1),dematerialization: a reduction in consumption; (2),rematerialization: a change in what we consume; or (3),transmaterialization: changing our attitude towards resources and waste. The "low-carbon" mantra that is popularly cited by organizations ranging from nongovernmental organizations to multinational companies and from local authorities to national governments is based on a combination of (1) and (2) (reducing carbon consumption though greater efficiency and lower per capita consumption, and replacing fossil energy sources with sources such as wind, wave, and solar, respectively). "Low carbon" is of inherently less value to the chemical and plastics industries at least in terms of raw materials although a version of (2), the use of biomass, does apply, especially if we use carbon sources that are renewable on a human timescale. There is however, another renewable, natural source of carbon that is widely available and for which greater utilization would help restore material balance and the natural cycle for carbon in terms of resource and waste. CO2, perhaps the most widely discussed and feared chemical in modern society, is as fundamental to our survival as water, and like water we need to better understand the human as well as natural production and consumption of CO2 so that we can attempt to get these into a sustainable balance. Current utilization of this valuable resource by the chemical industry is only 90,megatonne per year, compared to the 26.3,gigatonne CO2 generated annually by combustion of fossil fuels for energy generation, as such significant opportunities exist for increased utilization of CO2 generated from industrial processes. It is also essential that renewable energy is used if CO2 is to be utilized as a C1 building block. [source] | |||||||||||||||||||||||||