Bücher: „Stange energi“

1

Lukas, Cynthia K. Center stage summer. Madison, Wis: Square One Publishers, 1988.

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2

Vešović, Radonja. Kad vrijeme stane: Izbor pjesama. Podgorica: Crnogorska akademija nauka i umjetnosti, 2003.

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3

Carolina, Menezes Anna, und Chartered Institution of Building Services Engineers, Hrsg. Evaluating operational energy performance of buildings at the design stage. London: Chartered Institution of Building Services Engineers, 2013.

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4

Stringer, John. Focus on energy: Photo pack. Godalming: WWF UK, 2001.

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5

Bamberger, Robert. Energy policy: Setting the stage for the current debate. [Washington, D.C.]: Congressional Research Service, Library of Congress, 2001.

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6

Stringer, John. Energy: A resource book to accompany Stage two science. Warwick: Educational Television Co., 1995.

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7

Library of Congress. Congressional Research Service., Hrsg. Energy policy: Setting the stage for the current debate. [Washington, D.C.]: Congressional Research Service, Library of Congress, 2001.

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8

Library of Congress. Congressional Research Service., Hrsg. Energy policy: Setting the stage for the current debate. [Washington, D.C.]: Congressional Research Service, Library of Congress, 2002.

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9

Library of Congress. Congressional Research Service., Hrsg. Energy policy: Setting the stage for the current debate. [Washington, D.C.]: Congressional Research Service, Library of Congress, 2001.

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10

Library of Congress. Congressional Research Service., Hrsg. Energy policy: Setting the stage for the current debate. [Washington, D.C.]: Congressional Research Service, Library of Congress, 2003.

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11

MacGarry, Ann. Green technology.: By teachers, for teachers : key stage 2. Herausgegeben von Randle John, Randle Damian und Green Teacher Resources. Machynlleth: Green Teacher Resources, 1994.

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12

Krüger, Irmtraud Tarr. Performance power: Transforming stress into creative energy. Tempe, Ariz: Summit Books, 1993.

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13

Frenkelʹ, Mikhail. Plastika st͡s︡enicheskogo prostranstva: Nekotorye voprosy teorii i praktiki st͡s︡enografii. Kiev: "Mystet͡s︡tvo", 1987.

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14

Skills, Great Britain Department for Education and. Strengthening teaching and learning of energy in key stage 3 science. London: DfES, 2003.

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15

Bank, Inter-American Development, und Latin American Energy Organization, Hrsg. Guide for assessing energy potential in geothermal zones prior to the feasibility stage. Quito, Ecuador: Latin American Energy Organization, 1994.

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16

Great Britain. Department of the Environment., Hrsg. The benefits of including energy efficiency early in the design stage: Anglia Polytechnic University. [London]: Stationery Office, 1997.

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17

Performance power: Transforming stress into creative energy. Tempe, Ariz: Summit Books, 1993.

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18

Sibikin, Mihail. Alternative energy sources. ru: INFRA-M Academic Publishing LLC., 2022. http://dx.doi.org/10.12737/1862890.

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The textbook examines the current state and prospects of using solar, wind, geothermal water, small rivers, oceans, seas, secondary energy resources and other renewable energy sources in Russia and abroad. Examples of their implementation in the national economy are given. The methods of assessing the prospects for the use of alternative energy sources are considered. For students of energy and heat engineering areas of training and specialties 13.03.01 "Heat power engineering and heat engineering", 13.03.02 "Electric power engineering and electrical engineering", 13.02.10 "Electric machines and apparatuses", 13.02.11 "Technical operation and maintenance of electrical and electromechanical equipment (by industry)", as well as for engineering and technical workers involved in solving problems of use alternative energy sources.

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19

Shaydullina, Venera, Margarita Ruchkina, Natal'ya Zalyubovskaya, Aleksey Barkov, Lapina None, Irina Romashkova, Galina Kostyleva et al. Energy supply and energy efficiency: current issues of legal regulation. ru: INFRA-M Academic Publishing LLC., 2020. http://dx.doi.org/10.12737/1087986.

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The monograph is devoted to the development of practical recommendations of an institutional and legal nature aimed at improving the energy efficiency of the energy sector of the economy in the conditions of digitalization and economic restrictions. It contains scientific and practical proposals aimed at developing the activities of economic entities of the Russian energy market, energy infrastructure, and focuses on the problems of the state of the Russian energy sector, strategic planning and legal regulation of activities aimed at energy conservation and energy efficiency in the Russian Federation. It is intended for teachers, students and anyone interested in energy supply and energy efficiency.

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20

Corken, Lesley M. A case study of a constructivist approach to the teaching of energy at key stage 4. [S.l: The author], 1994.

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21

Murphy, Bryan. Experimentamos con el movimiento. Zaragoza, Spain: Editorial Luis Vives, 1992.

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22

Murphy, Bryan. Experiment with movement. Minneapolis, Minn: Lerner Publications, 1991.

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23

Murphy, Bryan. Experimentos con movimiento. México: McGraw-Hill/Interamericana, 1993.

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24

Seymour, Percy. The elementary particles as stable and unstable localized energy modes in electrified space-time. Plymouth: William Day Planetarium, 1989.

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25

Zuev, Sergey, Aleksandr Vereschagin, Ruslan Maleev und Aleksandr Chernov. Power supply in the heat and power industry. ru: INFRA-M Academic Publishing LLC., 2024. http://dx.doi.org/10.12737/1903340.

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The textbook describes the basic theoretical foundations and practical tasks in the field of state policy of states to improve energy efficiency. The data concerning the basics of energy audit of thermal power facilities are presented. The methods of energy saving in the production and distribution of thermal and electric energy, as well as methods of using renewable energy sources and secondary energy resources are considered in detail. Information is given on energy saving in lighting systems, as well as a methodology for research on reducing electrical energy losses in the distribution network. Meets the requirements of the latest generation of federal state standards of higher education. It is intended for undergraduate and specialist students studying in the fields of 13.03.02 "Electric power engineering and electrical engineering", 12.03.01 "Instrument Engineering", 12.03.05 "Laser technology and laser technologies", 12.05.01 "Electronic and optoelectronic devices and special purpose systems".

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26

Ward, Ian C. Energy and environmental issues for the practising architect: A guide to help at the initial design stage. London: Thomas Telford, 2004.

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27

Packevich, Alla. Architecture of Evolution. ru: INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/1079356.

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The monograph, on the one hand, examines the period of development of the descending cycle of evolution and the associated progressive changes that show the irreversibility of the processes of formation of the planetary system. The end of one cycle and the beginning of another leads to the transformation of the system of life and the expansion of consciousness at a new energy level. On the other hand, the questions of potential opportunities for the development of the ascending phase of evolution, which goes both along the path of complexity of the organization and along the path of diversity, are considered. In the ascending evolutionary stream, what has been differentiated into the corresponding levels in the descending cycle is brought together and thus prepared to enter into new, more perfect forms of unity. It is shown that the development of humanity along its entire path depends on the interaction of energies of various forms and potentials. Understanding the relationships between different types of energy and their use provides insight into many important issues in the evolution of society. The material introduces the modern features of the existence of the male and female sexes from the energy point of view. The idea of a way out of the current conflict situation that has arisen between the sexes at the present stage of evolution is proposed. It will be useful for those interested in the problems of scientific knowledge, architects, philosophers,historians, physicists and methodologists of science, students and students of secondary schools.

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28

Aleksandrov, Vadim, und Aleksandr Solodovnikov. Fuel and energy complex of the Urals: Orenburg region. ru: INFRA-M Academic Publishing LLC., 2023. http://dx.doi.org/10.12737/1977990.

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The monograph presents a regional and municipal description of the development of the oil and gas industry in the Orenburg region. A brief description of the natural conditions, the resource base of hydrocarbon raw materials is given, the stages of formation and development of the oil and gas industry in the context of the region and the largest oil and gas producing enterprises are revealed. The availability of fuel and energy resources in the Orenburg region is shown, data on production volumes at the territorial level, for the largest subsurface users and small companies, including those that have ceased their economic activities, are presented. The role of the oil and gas industry in the formation and development of the oil refining and gas chemical industry is revealed. When working on the book, data from the Central Dispatch Department of the Fuel and Energy Complex of Russia, the Federal State Statistics Service, the Office of the Federal State Statistics Service for the Orenburg Region, departments and departments of the Government of the Orenburg Region, research and design institutes, major enterprises, literary sources, periodicals, Internet resources were used. It is addressed to geographers, geologists, oilmen, economists, politicians, managers, specialists dealing with the problems of the development of the oil and gas industry. It will be useful for university students studying in geographical, geological, technical and economic fields of study and specialties, teachers, graduate students, high school students, lyceums, gymnasiums and anyone interested in their "small and large Homeland".

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29

Trofimov, Sergey. Strategic development of the Russian oil and gas complex: theoretical foundations, specifics and globalization aspects of state regulation. ru: INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/1662056.

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The monograph examines the historical and economic aspects of state regulation of the economy, and concludes that the national results of identical economic policies pursued by individual countries at different stages of development are heterogeneous. The necessity of improving the mechanism of centralized influence on economic activity in the Russian Federation by finding the optimal combination of various tools, taking into account the specifics of state regulation of the oil and gas complex as a structural element of the national economy, is proved. The article examines the world experience of oil-producing countries with a developed market structure, analyzes the cause-and-effect relationships between global processes on the world energy market and the internal economic specifics that arose during the modernization of production and the reform of the regulatory mechanism of the Russian oil and gas complex. It is recommended to everyone who is interested in the issues of state regulation of the economy and the development of the domestic oil and gas sector: state civil servants working in the fuel and energy sector, managers and employees of oil and gas enterprises, teachers, doctoral students, postgraduates and students.

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30

Kazeykin, Valeriy, und Vladimir Tolstolugov. Theory and practice of implementation of high energy efficient technologies in construction based on Thermaron heat generators. ru: INFRA-M Academic Publishing LLC., 2020. http://dx.doi.org/10.12737/1146805.

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The monograph summarizes the legislative and regulatory framework, as well as shows the theory and practice of energy saving and energy efficiency development in Russia and in the world with the actualization of the use of a breakthrough domestic high-energy-efficient technology based on molecular heat generators Termaron. These devices use the principles of hydrolysis, cavitation, magnetism, resonance and synergy of these processes. The results of research conducted with the participation of specialists from Dubna state University, as well as the practice of using the Termaron ATP, showed that its operation provides a high efficiency in the use of electric energy, equal to 0.98, and the coefficient of conversion of electric energy to heat is from 2.3 to 4.6 (on average, 3.45). At the same time, the cost of heat energy and hot water supply is two to three times lower compared to traditional types of heat generating devices. It is intended for representatives of government authorities, University teachers, scientific and practical specialists in the field of design, construction and operation of energy-efficient residential and commercial real estate, state and municipal employees, managers and employees of development companies, students, masters, postgraduates and other specialists interested in improving their competencies in the field of energy efficiency based on domestic innovative breakthrough technologies in Russia and abroad.

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31

Stage two science: Energy. London: Channel 4, 1995.

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32

Stringer, John, und Malcolm Ward. Energy from Nature (Stage Two Science). 4Learning, 2000.

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33

Northern Ireland: Northern Ireland Assembly. Energy Bill : (as amended at consideration Stage). Stationery Office, The, 2010.

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34

Partyka, Gertha. Energy Detox Guide: Three Stage to Apply. Independently Published, 2021.

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35

Henriksen, Niels Engholm, und Flemming Yssing Hansen. Microscopic Interpretation of Arrhenius Parameters. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198805014.003.0008.

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This chapter reviews the microscopic interpretation of the pre-exponential factor and the activation energy in rate constant expressions of the Arrhenius form. The pre-exponential factor of apparent unimolecular reactions is, roughly, expected to be of the order of a vibrational frequency, whereas the pre-exponential factor of bimolecular reactions, roughly, is related to the number of collisions per unit time and per unit volume. The activation energy of an elementary reaction can be interpreted as the average energy of the molecules that react minus the average energy of the reactants. Specializing to conventional transition-state theory, the activation energy is related to the classical barrier height of the potential energy surface plus the difference in zero-point energies and average internal energies between the activated complex and the reactants. When quantum tunnelling is included in transition-state theory, the activation energy is reduced, compared to the interpretation given in conventional transition-state theory.

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36

Wellington, J. J., und Sally Fielden. Modular Science (Simon & Schuster Modular Science - Key Stage 3). Simon & Schuster Education, 1990.

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37

Wellington, J. J., und Sally Fielden. Modular Science (Simon & Schuster Modular Science - Key Stage 3). Simon & Schuster Education, 1990.

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38

Glover, David, und Penny Glover. Oxford Reading Tree : Stage 2: More Fireflies Push and Pull. Oxford University Press, 2006.

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39

Stringer, John. Focus on Energy (Focus on). Hodder Children's Books, 1999.

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40

Energy policy: Setting the stage for the current debate. [Washington, D.C.]: Congressional Research Service, Library of Congress, 2001.

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41

Nuffield Science: Key Stage 1: Using Energy: Teacher's Guide. HarperCollins Publishers, 1995.

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42

Stringer, John. Energy: A resource book to accompany Stage Two Science. Channel Four Learning, 1997.

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43

Gawel, Erik, Sebastian Strunz und Paul Lehmann. Support Policies for Renewables: Instrument Choice and Instrument Change from a Public Choice Perspective. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198802242.003.0005.

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This chapter frames the transition towards clean energies as a sequential process of instrument choice and instrument change. First, regulators decide how to initiate the transition away from fossil energies. Here, support policies for renewable electricity are politically convenient because they face low resistance from fossil energies’ interest groups. In the second stage, regulators need to adapt support policies for renewables to challenges arising along the transition pathway. This theoretical two-stage framework is empirically substantiated by tracing the development of support policies in Germany. Against the backdrop of this analysis, small-step policies that could foster the energy transition process are pointed out.

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44

del Guayo Castiella, Iñigo. Support for Renewable Energies and the Creation of a Truly Competitive Electricity Market. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198822080.003.0017.

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Early in the EU liberalization process, renewable energies needed governmental support in a market dominated by traditional sources. Support was considered an exception to prohibition of governmental promotion of indigenous national energy sources. The Climate and Energy Package changed this perspective, leading to the 2009 Directive, allowing member states to enforce support schemes promoting renewable energies. Conflicts emerged between some schemes and the rules on state aids of the Treaty on the Functioning of the European Union. Deficient stability of support schemes must yield to a more predictable legal framework. The proposed substitute renewable energies Directive must be read in light of reinforcements of EU sustainable energies policies and 2015 Paris Agreement commitments. Renewable energies technology innovation has reduced costs and governmental support is somehow redundant. The future Directive provides rules that are compatible with competition and on the need to support generation from renewable energies in other member states.

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45

Sfetcu, Nicolae. Geopolitica energiilor regenerabile în contextul schimbărilor climatice. MultiMedia Publishing, 2022. http://dx.doi.org/10.58679/tw77878.

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Schimbările climatice și inegalitatea economică sunt adesea considerate independent unele de altele. Dar nu este posibil să abordăm nici una dintre aceste provocări fără a ne angaja cu cealaltă: ele sunt indisolubil legate. Împiedicarea creșterii încălzirii globale peste 1,5 °C va necesita atingerea a 80% energie cu emisii zero până în 2030 și 100% până în 2050, iar o mare parte din aceasta ar trebui realizată prin utilizarea sporită a energiei regenerabile. Va deveni lumea mai sigură dacă energia regenerabilă va fi adoptată pe scară largă? Poate fi folosit transportul de energie electrică drept instrument de politică externă sau armă similar modului în care au fost utilizate resursele de petrol și gaze în trecut? Transformarea energetică globală determinată de sursele regenerabile va avea implicații geopolitice semnificative. Va remodela relațiile dintre state și va duce la schimbări structurale fundamentale în economii și societate. Lumea care va ieși din tranziția la energie regenerabilă va fi foarte diferită de cea care a fost construită pe o bază de combustibili fosili. Deși amploarea și ritmul precis al transformării energetice nu pot fi prezise, impactul acesteia asupra țărilor, comunităților și companiilor va fi profund. Țările trebuie să se pregătească pentru schimbările viitoare și să dezvolte strategii pentru a spori perspectivele unei tranziții fără probleme. Dezvoltarea energiei regenerabile poate permite o creștere compatibilă cu clima în țările cu venituri mici și medii, dar acest lucru vine și cu riscuri semnificative, inclusiv potențialul de a declanșa un blestem al resurselor cu efecte sociale, de mediu și economice negative, care au ca rezultat o creștere paradoxală încetinită. Trăim într-o eră în care omenirea schimbă acum sistemele „naturale” la o asemenea scară încât am devenit de fapt o forță geologică.

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46

Qscience - Key Stage 1: Forces and Energy Pack (Q Science). Nelson Thornes Ltd, 1995.

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47

Mani, Devleena. Organic and Stable Isotope Geochemistry in Energy and Environment. Taylor & Francis Group, 2021.

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48

Mani, Devleena. Organic and Stable Isotope Geochemistry in Energy and Environment. Taylor & Francis Group, 2022.

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49

Mani, Devleena. Organic and Stable Isotope Geochemistry in Energy and Environment. Taylor & Francis Group, 2021.

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50

Mani, Devleena. Organic and Stable Isotope Geochemistry in Energy and Environment. Taylor & Francis Group, 2021.

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Bücher zum Thema „Stange energi“

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