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Libros sobre el tema "Carnot efficiency"

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Publicado: 4 de junio de 2021
Última modificación: 6 de febrero de 2022

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1

Al, Hurd, ed. The carbon efficient city. Seattle: University of Washington Press, 2012.

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2

Skaali, Bruno y Tomas Knezevic. China's energy efficiency and carbon emissions outlook. New York: Nova Science Publishers, 2012.

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3

Morvaj, Zoran. Energy efficiency - a bridge to low carbon economy. Rijeka: InTech, 2012.

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4

Shorrock, L. D. Potential carbon emission savings from energy efficiency in housing. [London]: Construction Research Communications Ltd, 1995.

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5

Oliveira-Martins, Joaquim. Efficiency and distribution in computable models of carbon emission abatement. Paris: OECD, 1998.

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6

Oliveira-Martins, Joaquim. Efficiency and distribution in computable models of carbon emission abatement. Paris: OECD, 1998.

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7

Tremblay, William. Barriers to climate change mitigation technologies and energy efficiency. Hauppauge, N.Y: Nova Science Publishers, 2011.

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8

Anufriev, Valeriy, Yuliya Gudim y Aytkali Kaminov. Sustainable development. Energy efficiency. Green economy. ru: INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/1226403.

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The monograph examines the problems of sustainable development and energy efficiency using the scientific and methodological approach proposed by the authors for the development of regional fuel and energy programs based on the KhMAO, the Sverdlovsk region, and the oil and gas production enterprise JSC Yuganskneftegaz, and presents the results of the environmental and economic assessment. This approach allows us to evaluate and select the most effective investment project for the utilization of associated petroleum gas from the point of view of energy, environmental and climate security on comparable indicators (tons, rubles). The authors proposed to distinguish from more than 200 UN indicators four basic indicators: the change in the green area (country, region, city, household) for the year; the level of energy efficiency; the amount of pollutants released per year; the annual amount of greenhouse gas emissions. It is proposed to consider the possibility of using the" energy " ruble of S. A. Podolinsky (kW / h) as a possible world reserve currency. Taking into account the unique experience of the region's participation in various projects of sustainable development, energy-efficient and low-carbon economy, it is proposed to create a market for waste and greenhouse gas emissions on the basis of the trade exchange of the Sverdlovsk region as a pilot platform for the implementation of the green economy. The history of the term "green economy", the essence of this concept is considered; the results of the application of green economy in different countries are shown. The international experience of green solutions and technologies is analyzed, the psychological aspects of the transition to a green economy are studied. For all those interested in the environmental development of the economy.
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9

Makovich, Lawrence. The cost of energy efficiency investments: The leading edge of carbon abatement. Cambridge, MA: CERA, 2008.

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10

Blitzer, Charles R. The Potential for reducing carbon emissions from increased efficiency: A general equilibrium methodology. Cambridge, Mass: Dept. of Economics, Massachusetts Institute of Technology, 1990.

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11

Deakin, Mark, Fiona Campbell, Alasdair Reid y Joel Orsinger. The Mass Retrofitting of an Energy Efficient—Low Carbon Zone. London: Springer London, 2014. http://dx.doi.org/10.1007/978-1-4471-6621-4.

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12

Lee, Y. K. Carbon taxes: Energy prices and the efficiency of energy consumption in the international economy. Manchester: UMIST, 1994.

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13

Kramer, S. J. 14C measurement: Effect of variations in sample preparation and storage on the counting efficiency for 14C using a carbo-sorb/permafluor E+ liquid scintillation cocktail. Chalk River, Ont: Environmental Research Branch, Chalk River Laboratories, 1995.

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14

P, Sharma M. Efficiency of activated charcoal for inactivation of Bromacil and Tebuthiuron residues in soil. Edmonton, Alta: Alberta Land Conservation and Reclamation Council, Reclamation Research Technical Advisory Committee, 1989.

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15

Ebihara, Ben T. Traveling-wave-tube efficiency improvement by a low-cost technique for deposition of carbon on multistage depressed collector. Cleveland, Ohio: Lewis Research Center, 1987.

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16

Ebihara, Ben T. Traveling-wave-tube efficiency improvement by a low-cost technique for deposition of carbon on multistage depressed collector. [Washington, D.C.]: National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1987.

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17

Ebihara, Ben T. Traveling-wave-tube efficiency improvement by a low-cost technique for deposition of carbon on multistage depressed collector. [Washington, D.C.]: National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1987.

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18

Ebihara, Ben T. Traveling-wave-tube efficiency improvement by a low-cost technique for deposition of carbon on multistage depressed collector. [Washington, D.C.]: National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1987.

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19

Ramins, Peter. Secondary-electron-emission losses in multistage depressed collectors and traveling-wave-tube efficiency improvements with carbon collector electrode surfaces. [Washington, D.C.]: National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1986.

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20

Ramins, Peter. Secondary-electron-emission losses in multistage depressed collectors and traveling-wave-tube efficiency improvements with carbon collector electrode surfaces. [Washington, D.C.]: National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1986.

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21

Ramins, Peter. Secondary-electron-emission losses in multistage depressed collectors and traveling-wave-tube efficiency improvements with carbon collector electrode surfaces. Cleveland, Ohio: Lewis Research Center, 1986.

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22

Desideri, Umberto, Giampaolo Manfrida y Enrico Sciubba, eds. ECOS 2012. Florence: Firenze University Press, 2012. http://dx.doi.org/10.36253/978-88-6655-322-9.

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The 8-volume set contains the Proceedings of the 25th ECOS 2012 International Conference, Perugia, Italy, June 26th to June 29th, 2012. ECOS is an acronym for Efficiency, Cost, Optimization and Simulation (of energy conversion systems and processes), summarizing the topics covered in ECOS: Thermodynamics, Heat and Mass Transfer, Exergy and Second Law Analysis, Process Integration and Heat Exchanger Networks, Fluid Dynamics and Power Plant Components, Fuel Cells, Simulation of Energy Conversion Systems, Renewable Energies, Thermo-Economic Analysis and Optimisation, Combustion, Chemical Reactors, Carbon Capture and Sequestration, Building/Urban/Complex Energy Systems, Water Desalination and Use of Water Resources, Energy Systems- Environmental and Sustainability Issues, System Operation/ Control/Diagnosis and Prognosis, Industrial Ecology.
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23

J, Brinsky William y Leitman Seth, eds. Green lighting: How energy-efficient lighting can save you energy and money and reduce your carbon footprint. New York: McGraw-Hill, 2011.

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24

Asplund, Richard W. Profiting from clean energy: A complete guide to trading green in solar, wind, ethanol, fuel cell, power efficiency, carbon credit industries, and more. Hoboken, N.J: John Wiley & Sons, Inc., 2008.

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25

Prospects for advanced coal technologies: Efficient energy production, carbon capture and sequestration : hearing before the Subcommittee on Energy and Environment, Committee on Science and Technology, House of Representatives, One Hundred Tenth Congress, first session, May 15, 2007. Washington, D.C: U.S. G.P.O., 2008.

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26

China. Guo jia fa zhan he gai ge wei yuan hui, ed. Zhongguo di tan cheng shi fa zhan lu jing: Wai guo qi ye zai Zhongguo di tan cheng shi fa zhan zhong de jie ru = Challenges and solutions to the energy efficient law-carbon cities in China. Beijing: Ren min ri bao chu ban she, 2011.

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27

Sherwood, Dennis y Paul Dalby. Clausius, Kelvin, Planck, Carathéodory and Carnot. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198782957.003.0010.

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A chapter that draws together, and compares and contrasts, the principal alternative formulations of the Second Law – The Clausius statement, the Kelvin-Planck statement, the Carathéodory statement, and the Carnot cycle. This includes a discussion of heat engines and heat pumps, and of the efficiency of devices that transform heat into work.
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28

Wolf, E. L. Solar Thermal Energy. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.003.0009.

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The Sun’s spectrum on Earth is modified by the atmosphere, and is harvested either by generating heat for direct use or for running heat engines, or by quantum absorption in solar cells, to be discussed later. Focusing of sunlight requires tracking of the Sun and is defeated on cloudy days. Heat engines have efficiency limits similar to the Carnot cycle limit. The steam turbine follows the Rankine cycle and is well developed in technology, optimally using a re-heat cycle of higher efficiency. Having learned quite a bit about how the Sun’s energy is created, and how that process might be reproduced on Earth, we turn now to methods for harvesting the energy from the Sun as a sustainable replacement for fossil fuel energy.
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29

Hayes, Denis, A.-P. Hurd y Al Hurd. Carbon Efficient City. University of Washington Press, 2016.

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30

Morvaj, Zoran, ed. Energy Efficiency - A Bridge to Low Carbon Economy. InTech, 2012. http://dx.doi.org/10.5772/2505.

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31

Yang, Ming y Xin Yu. Energy Efficiency: Benefits for Environment and Society. Springer, 2015.

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32

Yang, Ming y Xin Yu. Energy Efficiency: Benefits for Environment and Society. Springer, 2016.

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33

Graciela, Chichilnisky y Heal G. M, eds. Environmental markets: Equity and efficiency. New York: Columbia University Press, 2000.

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34

Heal, Geoffrey y Graciela Chichilnisky. Environmental Markets: Equity and Efficiency. Columbia University Press, 2000.

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35

Establishment, Building Research, ed. Potential carbon emission savings from energy efficiency in commercial buildings. London: H.M.S.O., 1996.

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36

Montoya, Milton Fernando. The Coal Dilemma. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198822080.003.0011.

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This chapter discusses the need to promote and implement technologies that allow the efficient and low production of carbon dioxide emissions generated by coal-fired power plants in Colombia. This takes place in a context where the country seeks to guarantee the reliability and energy security of the electric system. Besides, in seeking to honour the commitments made in matters of greenhouse gas reduction according to the COP21 Paris Agreement. Thus, in the Colombian case, where dependence on hydraulic technology is evident, it is necessary to boost thermal generation, using available energy resources such as coal, making use of new developments and new thermal generation technologies such as supercritical plants, which operate with low emission levels and greater efficiency, thus implying new stimuli aimed at facilitating the implementation of this technology, and even discussing the principle of technological neutrality.
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37

Edmund, Hughes. 9 The IMO: Ship-sourced Emissions, Climate Change, and Global Ocean Governance. Oxford University Press, 2018. http://dx.doi.org/10.1093/law/9780198823957.003.0009.

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This chapter focusses on the vexed question of climate change and the International Maritime Organization’s (IMO) attempts to control and reduce ship-sourced emissions. It notes that, while international maritime transport remains the most energy-efficient mode of mass cargo transport, a global approach to further improvements in energy efficiency and work to address greenhouse gas (GHG) emissions from ships is highly necessary. After all, sea transport is predicted to grow significantly in the coming years. In line with this, a roadmap has been approved by the Marine Environment Protection Committee (MEPC) for the development of a comprehensive strategy on the reduction of GHG emissions from ships. Under the roadmap and to provide a long-term vision for the shipping sector, the MEPC will need to address a number of important questions.
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38

Jenkins, Jesse D. y Valerie J. Karplus. Carbon Pricing under Political Constraints. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198802242.003.0003.

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The economic prescription for mitigating climate change is clear: price carbon dioxide (CO2) and other greenhouse gas emissions to internalize climate damages. In practice, a variety of political economy constraints have prevented the introduction of a carbon price equal to the full social cost of emissions. This chapter develops insights about the design of climate policy in the face of binding political constraints. Using a stylized model of the energy sector, the authors identify welfare-maximizing combinations of a CO2 price, subsidy for clean energy production, and lump-sum transfers to energy consumers or producers under a set of constraints: limits on the CO2 price, on increases in energy prices, and on energy consumer and producer surplus loss. The authors find that strategically using subsidies or transfers to relieve political constraints can significantly improve the efficiency of carbon pricing policies, while strengthening momentum for a low-carbon transition over time.
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39

Bankes, Nigel. Transitioning to a Lower Carbon Future. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198822080.003.0016.

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This chapter discusses the legal and policy issues associated with adopting an aggressive transition to renewable and lower carbon fuels in Alberta’s electricity market. The chapter describes the evolution of Alberta’s electricity sector and restructuring that will involve the addition of a capacity market to supplement the existing energy only market. The chapter examines Canada’s international commitments with respect to the reduction of greenhouse gas emissions, coal phase-out, and developments in climate change and energy efficiency policy at both the federal level and for Alberta, which currently has a carbon-intensive energy mix. The chapter then presents Alberta’s current climate change policy and the Climate Leadership Plan, focussing on the implications of this policy for the electricity sector and for market design within that sector.
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40

Partain, Roy A. y Michael Gebert Faure. Carbon Capture and Storage: Efficient Legal Policies for Risk Governance and Compensation. MIT Press, 2017.

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41

Partain, Roy A. y Michael Gebert Faure. Carbon Capture and Storage: Efficient Legal Policies for Risk Governance and Compensation. MIT Press, 2017.

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42

Carbon Capture and Storage: Efficient Legal Policies for Risk Governance and Compensation. MIT Press, 2017.

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43

Partain, Roy A. y Michael Gebert Faure. Carbon Capture and Storage: Efficient Legal Policies for Risk Governance and Compensation. MIT Press, 2017.

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44

Paulson, CAJ. Greenhouse Gas Control Technologies. Editado por RA Durie, DJ Williams, AY Smith y P. McMullan. CSIRO Publishing, 2001. http://dx.doi.org/10.1071/9780643105027.

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The control of greenhouse gas emissions continues to be a major global problem. It is inter-disciplinary, both in substance and approach, and covers technical, political and economic issues involving governments, industry and the scientific community. These proceedings contain 220 papers presented at the 5th International Conference on Greenhouse Gas Control Technologies (GHGT-5) held in August 2000 at Cairns, Queensland, Australia. The papers cover the capture of carbon dioxide, geological storage of carbon dioxide, ocean storage of carbon dioxide, storage of carbon dioxide with enhanced hydrocarbon recovery, utilisation of carbon dioxide, other greenhouse gases, fuel cells, alternative energy carriers, energy efficiency, life cycle assessments and energy modelling, economics, international and national policy, trading and accounting policy, social and community issues, and reducing emission from industry and power generation.
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45

The Mass Retrofitting of an Energy Efficient—Low Carbon Zone. Springer, 2014.

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46

Fiona, Campbell, Mark Deakin y Alasdair Reid. The Mass Retrofitting of an Energy Efficient-Low Carbon Zone. Springer, 2015.

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47

Budzianowski, Wojciech M. Energy Efficient Solvents for CO2 Capture by Gas-Liquid Absorption: Compounds, Blends and Advanced Solvent Systems. Springer, 2018.

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48

Budzianowski, Wojciech M. Energy Efficient Solvents for CO2 Capture by Gas-Liquid Absorption: Compounds, Blends and Advanced Solvent Systems. Springer, 2016.

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49

United States. National Aeronautics and Space Administration. Scientific and Technical Information Branch., ed. Adding computationally efficient realism to Monte Carlo turbulence simulation. [Washington, DC]: National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1985.

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50

Avner, Paolo, Jun Rentschler y Stephane Hallegatte. Carbon Price Efficiency: Lock-in and Path Dependence in Urban Forms and Transport Infrastructure. The World Bank, 2014. http://dx.doi.org/10.1596/1813-9450-6941.

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