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Carbon dioxide utilisation is a growing field of research that spans early stage laboratory chemistry through to commercial exploitation. In 2013 the CO2Chem Network (www.co2chem.com) made a successful bid to hold the 14th edition of this major conference. This was the first time it was held in the United Kingdom and attracted over 270 delegates from 32 different countries. It was a condition of presentation that all the work submitted was new and novel. We invited submissions of new work for this Research Topic and manuscripts were subjected to deep peer review. We are pleased that these papers are now being collated into an eBook. We value the range and quality of the papers submitted. These range from novel capture, integration and process through to policy, public perception and economic evaluation. CO2Chem was proud to be chosen to organise this prestigious conference. CO2Chem was founded in 2010 as one of the Engineering and Physical Sciences (EPSRC) Grand Challenge Networks. It is now in its eighth year of operation and its third round of direct funding. It continues to be a forum for discussion and collaboration nationally and globally. We have for a long time associated ourselves with ICCDU and will continue to do so in the future. We hope that the papers presented here serve as a catalyst to further research in CDU and to engagement with ICCDU.
Plasma --- Techno-economic analysis --- CCU --- Energy --- CDU --- fuel --- Carbon dioxide utilisation --- public acceptance --- Catalysis --- Capture
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Carbon dioxide utilisation is a growing field of research that spans early stage laboratory chemistry through to commercial exploitation. In 2013 the CO2Chem Network (www.co2chem.com) made a successful bid to hold the 14th edition of this major conference. This was the first time it was held in the United Kingdom and attracted over 270 delegates from 32 different countries. It was a condition of presentation that all the work submitted was new and novel. We invited submissions of new work for this Research Topic and manuscripts were subjected to deep peer review. We are pleased that these papers are now being collated into an eBook. We value the range and quality of the papers submitted. These range from novel capture, integration and process through to policy, public perception and economic evaluation. CO2Chem was proud to be chosen to organise this prestigious conference. CO2Chem was founded in 2010 as one of the Engineering and Physical Sciences (EPSRC) Grand Challenge Networks. It is now in its eighth year of operation and its third round of direct funding. It continues to be a forum for discussion and collaboration nationally and globally. We have for a long time associated ourselves with ICCDU and will continue to do so in the future. We hope that the papers presented here serve as a catalyst to further research in CDU and to engagement with ICCDU.
Plasma --- Techno-economic analysis --- CCU --- Energy --- CDU --- fuel --- Carbon dioxide utilisation --- public acceptance --- Catalysis --- Capture
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This book reviews the past and provides new strategies to help BIMSTEC achieving a new paradigm of integration. It primarily deals with the regional cooperation and integration issues, and assesses policy priorities, effectiveness, implementation imperatives and challenges. Each chapter in this book tries to capture essential features of the crosscutting issues and attempts to draw some policy implications. The subject of this book will be of special interests to policy planners, development organisations, academicians, researchers as well as potential investors. Please note: T&Fdoes not sell or distribute the Hardback in India, Pakistan, Nepal, Bhutan, Bangladesh and Sri Lanka.
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The aim of this thesis was to determine technical and economical parameters that have a prominent impact on the possible market introduction of the power to methanol technology and revenue from its by products. To do so key technical and economical parameters regarding available technologies for the different subsystems were gathered from the literature for a 10 year horizon. This allows to make technological choices based on the relevant economic factors. The already existing chemical reactor as well as the purification process studied in the chemical engineering department are modified to increase efficiency and estimate capital cost of commercial applications. The system is then reduced to its main parameters to allow a system cost and performance assessment and plausible configurations to be generated at will. Then simulations were made to assess the feasibility of three early market applications. A financial analysis is performed as well as the ground work for future advanced dynamic analysis. This work will demonstrate the unprofitably of small scale household application as well as the feasibility of energy autonomous towns. On a more industrial point of view : the feasibility of the introduction of methanol synthesis powered with energy bought on the electricity market as well as grid support applications in the next ten years.
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Carbon dioxide utilisation is a growing field of research that spans early stage laboratory chemistry through to commercial exploitation. In 2013 the CO2Chem Network (www.co2chem.com) made a successful bid to hold the 14th edition of this major conference. This was the first time it was held in the United Kingdom and attracted over 270 delegates from 32 different countries. It was a condition of presentation that all the work submitted was new and novel. We invited submissions of new work for this Research Topic and manuscripts were subjected to deep peer review. We are pleased that these papers are now being collated into an eBook. We value the range and quality of the papers submitted. These range from novel capture, integration and process through to policy, public perception and economic evaluation. CO2Chem was proud to be chosen to organise this prestigious conference. CO2Chem was founded in 2010 as one of the Engineering and Physical Sciences (EPSRC) Grand Challenge Networks. It is now in its eighth year of operation and its third round of direct funding. It continues to be a forum for discussion and collaboration nationally and globally. We have for a long time associated ourselves with ICCDU and will continue to do so in the future. We hope that the papers presented here serve as a catalyst to further research in CDU and to engagement with ICCDU.
Plasma --- Techno-economic analysis --- CCU --- Energy --- CDU --- fuel --- Carbon dioxide utilisation --- public acceptance --- Catalysis --- Capture --- Plasma --- Techno-economic analysis --- CCU --- Energy --- CDU --- fuel --- Carbon dioxide utilisation --- public acceptance --- Catalysis --- Capture
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Trade routes --- Bay of Bengal Initiative for Multisectoral Techno-Economic Cooperation. --- Bengal, Bay of --- Southeast Asia --- South Asia --- Commerce.
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In this work, an optimization model (MILP) for the energetic refurbishment planning of buildings is developed. It provides decision support for owner-occupiers and/or landlords. The approach considers simultaneously the selection of refurbishment measures, the operation of energy supply technologies (incl. CHP/PV), and the financing structure from an economic point of view. The evaluation scheme is based on a visualization of financial implications and factors public funds into the analysis.
Wohngebäude --- Techno-ökonomische Planung --- Energetische Modernisierung --- Residential buildings --- Vollständige Finanzplanung --- Gemischt-ganzzahlige lineare OptimierungEnergetic refurbishment --- Visualization of Financial Implications --- Mixed-integer linear programming --- Techno-economic planning
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Agriculture, as a production-oriented sector, entails energy as a substantial input by which global food security is ensured. Agricultural systems require energy for farm machinery and equipment; lighting; heating, ventilation, and air-conditioning (HVAC); food processing and preservation; fertilizer and chemical production; and water/wastewater treatment/application. Increasing agriculture mechanization mitigates conventional energy reserves that escalate greenhouse gas emissions and climate change.This book aims to offer energy-efficient and/or environment-friendly ways for the agriculture sector to achieve the 2030 UN Sustainable Development Goals. The book provides cutting-edge research on next-generation agricultural technologies and applications to develop a sustainable solution for modern greenhouses, temperature/humidity control in agriculture, farm storage and drying, crop water requirements, agricultural built environment, and wastewater treatment.
Research & information: general --- Biology, life sciences --- Technology, engineering, agriculture --- mercury ion --- corn cob --- activated carbon --- adsorption --- greenhouse energy modeling --- renewable energy --- energy-saving screen --- greenhouse microclimate control --- cantaloupe --- improvement potential --- energy efficiency --- exergy --- ANN --- ANFIS --- cereal production --- crop rotation --- energy analysis --- DEA --- CO2 emissions --- Chinese solar greenhouse --- thermal model --- north wall --- cold regions --- heating requirement --- pyrolysis --- date palm waste --- techno-economic --- fluidized bed reactor --- biofuels --- solar cooling --- post-harvest food losses --- decentralized food storage --- cooling pads --- agriculture --- CROPWAT --- irrigation management --- crop water requirement --- hybrid renewable energy --- techno-economic optimization --- net present cost --- HOMER Pro® --- membrane energy recovery ventilator --- energy recovery potential --- Maisotsenko cycle evaporative cooling --- building air-conditioning --- human thermal comfort --- Pakistan --- wastewater treatment --- biological process --- aerobic process --- attached growth --- biofilm --- rotating biological contactor --- mercury ion --- corn cob --- activated carbon --- adsorption --- greenhouse energy modeling --- renewable energy --- energy-saving screen --- greenhouse microclimate control --- cantaloupe --- improvement potential --- energy efficiency --- exergy --- ANN --- ANFIS --- cereal production --- crop rotation --- energy analysis --- DEA --- CO2 emissions --- Chinese solar greenhouse --- thermal model --- north wall --- cold regions --- heating requirement --- pyrolysis --- date palm waste --- techno-economic --- fluidized bed reactor --- biofuels --- solar cooling --- post-harvest food losses --- decentralized food storage --- cooling pads --- agriculture --- CROPWAT --- irrigation management --- crop water requirement --- hybrid renewable energy --- techno-economic optimization --- net present cost --- HOMER Pro® --- membrane energy recovery ventilator --- energy recovery potential --- Maisotsenko cycle evaporative cooling --- building air-conditioning --- human thermal comfort --- Pakistan --- wastewater treatment --- biological process --- aerobic process --- attached growth --- biofilm --- rotating biological contactor
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Agriculture, as a production-oriented sector, entails energy as a substantial input by which global food security is ensured. Agricultural systems require energy for farm machinery and equipment; lighting; heating, ventilation, and air-conditioning (HVAC); food processing and preservation; fertilizer and chemical production; and water/wastewater treatment/application. Increasing agriculture mechanization mitigates conventional energy reserves that escalate greenhouse gas emissions and climate change.This book aims to offer energy-efficient and/or environment-friendly ways for the agriculture sector to achieve the 2030 UN Sustainable Development Goals. The book provides cutting-edge research on next-generation agricultural technologies and applications to develop a sustainable solution for modern greenhouses, temperature/humidity control in agriculture, farm storage and drying, crop water requirements, agricultural built environment, and wastewater treatment.
Research & information: general --- Biology, life sciences --- Technology, engineering, agriculture --- mercury ion --- corn cob --- activated carbon --- adsorption --- greenhouse energy modeling --- renewable energy --- energy-saving screen --- greenhouse microclimate control --- cantaloupe --- improvement potential --- energy efficiency --- exergy --- ANN --- ANFIS --- cereal production --- crop rotation --- energy analysis --- DEA --- CO2 emissions --- Chinese solar greenhouse --- thermal model --- north wall --- cold regions --- heating requirement --- pyrolysis --- date palm waste --- techno-economic --- fluidized bed reactor --- biofuels --- solar cooling --- post-harvest food losses --- decentralized food storage --- cooling pads --- agriculture --- CROPWAT --- irrigation management --- crop water requirement --- hybrid renewable energy --- techno-economic optimization --- net present cost --- HOMER Pro® --- membrane energy recovery ventilator --- energy recovery potential --- Maisotsenko cycle evaporative cooling --- building air-conditioning --- human thermal comfort --- Pakistan --- wastewater treatment --- biological process --- aerobic process --- attached growth --- biofilm --- rotating biological contactor
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