Journal articles: 'Clean energy – Research'

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Bi, Xiaotao, and Junnan Chao. "The Clean Energy Research Centre (CERC)." Clean Energy 6, no. 2 (March 5, 2022): 1003–11. http://dx.doi.org/10.1093/ce/zkac005.

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Colpan, Can Ozgur, and Onder Kizilkan. "Recent progress in clean energy research." International Journal of Energy Research 40, no. 1 (September 28, 2015): 3. http://dx.doi.org/10.1002/er.3421.

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Yang, Ting Jie. "Research and Development of Clean-Energy Vehicles." Applied Mechanics and Materials 345 (August 2013): 17–21. http://dx.doi.org/10.4028/www.scientific.net/amm.345.17.

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This article presents the research and development of all electric vehicle (EV) in Department of HumanRobotics Saitama Institute of Technology, Japan .Electric mobile systems developed in our laboratory include a converted electric automobile,electric wheelchair and personal mobile robot.These mobile system s contribute to realize clean transportation since energy sources an d devices from all vehicles,i.e.,batteries and electric motors,does not deteriorate the environment.To drive motors for vehicle traveling,robotic technologies were applied.

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Weng, Caihao, Xuning Feng, Jing Sun, Minggao Ouyang, and Huei Peng. "Battery SOH Management Research in the US-China Clean Energy Research Center-Clean Vehicle Consortium." IFAC-PapersOnLine 48, no. 15 (2015): 448–53. http://dx.doi.org/10.1016/j.ifacol.2015.10.064.

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Huang, Kevin J., Liang Li, and Elsa A. Olivetti. "Designing for Manufacturing Scalability in Clean Energy Research." Joule 2, no. 9 (September 2018): 1642–47. http://dx.doi.org/10.1016/j.joule.2018.07.020.

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Prokofyeva, G. M., and D. A. Pisanenko. "RESEARCH OF ENVIRONMENTALLY CLEAN TECHNICAL DETERGENTS." Energy Technologies & Resource Saving, no. 1 (April 24, 2018): 43–47. http://dx.doi.org/10.33070/etars.1.2018.06.

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Problematic places in the modern economy is reckless depletion of natural resources, raw materials and fuels, excessive using of energy and environmental issues. Solving these issues in the gas and chemical industry achieved by preventing formation of the deposits on the compressor’s elements, and also implementation of the non-waste and low-waste productions and alternative energy sources. The deposits on the internal elements of the gas-air channels results in a significant loss of power, increases energy costs, reduces operational reliability of plants, through the activation of corrosion and erosion. So actual is development of technical detergents based on environmentally friendly surfactants and inorganic ingredients that do not contain deficit fire dangerous light oils, and also have high washing ability and low corrosion activity. Effective and non-phosphatic ecologically safe technical detergents (TD) based on polymeric non-ionic surfactants have been developed, as the composite surfactant of multifunctional action CF-10 is considered. The interaction of nonionic surfactants with the ingredients of the contamination of gas turbine aggregates was studied by various physicochemical methods (spectrophotometry, IR spectroscopy, electron paramagnetic resonance, electro-chemical polarization resistance method). Bibl. 10, Fig. 4.

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Srinivasan, Sesha S., and Elias K. Stefanakos. "Clean Energy and Fuel Storage." Applied Sciences 9, no. 16 (August 9, 2019): 3270. http://dx.doi.org/10.3390/app9163270.

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Clean energy and fuel storage is often required for both stationary and automotive applications. Some of the clean energy and fuel storage technologies currently under extensive research and development are hydrogen storage, direct electric storage, mechanical energy storage, solar-thermal energy storage, electrochemical (batteries and supercapacitors), and thermochemical storage. The gravimetric and volumetric storage capacity, energy storage density, power output, operating temperature and pressure, cycle life, recyclability, and cost of clean energy or fuel storage are some of the factors that govern efficient energy and fuel storage technologies for potential deployment in energy harvesting (solar and wind farms) stations and on-board vehicular transportation. This Special Issue thus serves the need to promote exploratory research and development on clean energy and fuel storage technologies while addressing their challenges to a practical and sustainable infrastructure.

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Tao, Shu, Guofeng Shen, Hefa Cheng, and Jianmin Ma. "Toward Clean Residential Energy: Challenges and Priorities in Research." Environmental Science & Technology 55, no. 20 (October 1, 2021): 13602–13. http://dx.doi.org/10.1021/acs.est.1c02283.

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Hou, Ming Shan, Shi Qi Li, Rong Zhu, Run Zao Liu, and Yu Gang Wang. "Experiment Research of Non-Carbon Metallurgy with Clean Energy." Advanced Materials Research 803 (September 2013): 355–62. http://dx.doi.org/10.4028/www.scientific.net/amr.803.355.

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Experiment research on non-carbon metallurgy was explored, which contained three parts: smelting in high temperature, electrolytic iron and hydrogen reduction. A complete set of non carbon metallurgy system should include four technical units: power generation, electric power storage, control module, metallurgy unit. Energy and high temperature over 1600°C can be offered by technology on non-carbon metallurgy, electron also can be offered for hydrogen reduction and electrolysis. Technological parameters and results of three kind experiments were analysed and discussed, the feasibility of this technology and processes were proved.

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Berry, David. "Research Articles: Community Clean Energy Programs: Proficiencies and Practices." Environmental Practice 15, no. 2 (June 2013): 97–107. http://dx.doi.org/10.1017/s146604661300001x.

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Allakhverdiev, Suleyman I., and Jian-Ren Shen. "Photosynthesis research for sustainability: Keys to produce clean energy." Biochimica et Biophysica Acta (BBA) - Bioenergetics 1837, no. 9 (September 2014): 1377–83. http://dx.doi.org/10.1016/j.bbabio.2014.07.002.

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Li, Jun, Zhengxi Chen, Chen Chen, Yangzi Wang, Fulong Song, and Xiaoxiao Yu. "Research and Outlook on Global Energy Interconnection." E3S Web of Conferences 209 (2020): 01002. http://dx.doi.org/10.1051/e3sconf/202020901002.

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Currently, the world is confronted with a series of challenges including resource shortage, climate change, environment pollution and energy poverty, which are rooted in the humanity’s deep dependence on and large-scale consumption of fossil energy. To tackle with those challenges is an urgent task for realizing sustainable development. The Global Energy Interconnection (GEI) is a clean energy-dominant, electricity-centered, interconnected and shared modern energy system. It is an important platform for large-scale development, transmission and utilization of clean energy resources at a global level, promoting the global energy transition characterized by cleaning, decarbonization, electrification and networking. The GEI has provided a scientific, novel and systematic solution to implement Agenda 2030 as well as the Paris Agreement. Focusing on the scope of clean transition and sustainable development, this paper has implemented qualitative and quantitative methods based on historic data. The global power demand and supply has been forecasted. Based on global clean energy resources endowments and distribution, a global main clean energy bases layout and generation planning optimization has been proposed. Later in this paper, the global power flow under the GEI scenario and corresponding GEI backbone grid has been explored and proposed. Finally, based on a preliminary investment estimation, the comprehensive benefits of building the GEI have been analyzed.

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Gavrikova, Elizaveta, Yegor Burda, Vladimir Gavrikov, Ruslan Sharafutdinov, Irina Volkova, Marina Rubleva, and Daria Polosukhina. "Clean Energy Sources: Insights from Russia." Resources 8, no. 2 (May 1, 2019): 84. http://dx.doi.org/10.3390/resources8020084.

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The paper is devoted to the assessment of the prospects of implementing clean energy sources in Russia, where the current energy policy goal is to increase the role of renewable and clean energy sources. The research is based on data from the Krasnoyarsk Region as one of the largest territories but also as a representative model of Russia. The aim of the study is to identify where and which renewable energy source (solar, wind, hydro and nuclear) has the highest potential. The novelty of our research lies in its holistic nature: authors consider both geographical and technical potential for renewable energy sources development as well as prospective demand for such resources, while previous research is mostly focused on specific aspects of renewable energy development. We also consider the level of air pollution as an important factor for the development of renewable energy sources. The results of the study show that there is a strong potential for clean energy sources in the Krasnoyarsk Region. The resulting matrix identifies the potential of energy sources across all the municipal entities and also indicates whether the source of energy is primary or supplemental and where several sources may be implemented in cooperation.

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Senthil, Ramalingam. "Recent innovations in solar energy education and research towards sustainable energy development." Acta Innovations, no. 42 (March 4, 2022): 27–49. http://dx.doi.org/10.32933/actainnovations.42.3.

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The essential requirements of our everyday lives are fresh air, pure water, nourishing food, and clean energy in a most sustainable manner. The present review article concisely discusses recent innovations in solar energy education, research, and development toward providing clean and affordable energy and clean water to some extent. This article primarily addresses the Sustainable Development Goal 7 of the United Nations (SDG 7: Affordable and Clean Energy). Over the past few decades, many research activities have been carried out on solar energy conversion and utilization. The deployment of solar energy technologies has been witnessed to combat global warming and the betterment of the planet. Drivers and barriers to implementing solar energy systems from school to master's level through real-time deployments are discussed for further development and innovations. Mainly, expedited solar energy education and research are essential to improve solar energy utilization. The advancements in solar energy education and research towards sustainable energy development and circular economy are highlighted along with further directions required.

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He, Chang, and Qian Li. "Research On Clean Energy and New Energy Vehicle by Multidimensional Preference Analysis." IOP Conference Series: Earth and Environmental Science 804, no. 3 (July 1, 2021): 032044. http://dx.doi.org/10.1088/1755-1315/804/3/032044.

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Balcerak, Ernie. "Fiscal year 2013 energy department budget: Proposed investments in clean energy research." Eos, Transactions American Geophysical Union 93, no. 10 (March 6, 2012): 108. http://dx.doi.org/10.1029/2012eo100005.

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Krzywanski, Jaroslaw, Wojciech Nowak, and Karol Sztekler. "Novel Combustion Techniques for Clean Energy." Energies 15, no. 13 (June 24, 2022): 4649. http://dx.doi.org/10.3390/en15134649.

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This Special Issue contains successful submissions as an answer to the invitation to bring together research on advances in design, modeling, and performance of novel combustion techniques for clean energy [...]

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Meckling, Jonas, and Llewelyn Hughes. "Global interdependence in clean energy transitions." Business and Politics 20, no. 4 (December 2018): 467–91. http://dx.doi.org/10.1017/bap.2018.25.

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AbstractThe global energy industry is transforming as governments invest in clean energy technologies to address climate change, enhance energy security, and strengthen national competitiveness. Comparative research on clean energy transitions highlights the domestic drivers and constraints of clean energy transitions. This article contends that we need to understand the effects of global interdependence on clean energy transitions. Shifts in forms of interdependence between firms—influenced by the rise of global supply chains—have new implications for policy choices made by governments. Governments face more complex demands from domestic industries facing global economic competition, and act strategically in response to the actions of other governments, including sub-national actors, and firms in the global economy. We suggest that research on interdependence in clean energy transitions benefits from an analytical focus on mechanisms of transnational change such as cross-national and multi-level policy feedback and cross-national policy sequencing. Global interdependence has important implications for economic and environmental outcomes, affecting the durability of competitive advantage, and influencing the pace of the diffusion of clean energy technologies.

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Jun, Zhang, and Niu Jiaoxu. "Research on Clean Development Mechanism Market in China." Energy Procedia 5 (2011): 654–58. http://dx.doi.org/10.1016/j.egypro.2011.03.115.

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Jing, Ling, and Jing Bo Zhao. "Research on Effect of Introducing Clean Energy in Compact City." Advanced Materials Research 361-363 (October 2011): 870–74. http://dx.doi.org/10.4028/www.scientific.net/amr.361-363.870.

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This paper focuses on the effect of introducing clean energy in compact city. As is well known, carbon-dioxide emissions from burning gas are about half the level from coal. It is cleaner to generate electricity with natural gas than coal. When it is used for combined heat and power (CHP) system, utilization ratio and utilize benefit could be advanced considerably. This paper chooses a case in Changchun to research the effect. Three energy supply systems are set up, namely boiler system (system A) and two combined heat and power systems (system B and system C). The intensity of energy consumption of Changchun could be reckoned according to the intensity of energy consumption of Tokyo and the ratio of Degree-day of the two cities. Likewise, equipment efficiency, equipment price, energy price, CO2 emission intensity and depreciation rate are postulated. According to calculated and given data to calculate primary energy consumption, CO2emission, initial cost, annual operation costs and payback periods. The results are as follows: CHP systems (system B and system C) energy saving rates are respectively 22.9% and 8.0%, CO2 reduction rates are respectively 24.6% and 10.0%, payback periods are respectively 7.8 and 4.3 years relative to the boiler system (system A). Comparing the results of three systems, it could conclude that CHP systems (system B and system C) using natural gas would be attractive options when introducing energy system in compact cities.

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Labay, Volodymyr, Hanna Klymenko, and Mykola Gensetskyi. "STATUS AND PROSPECTS OF IMPROVING ENERGY EFFICIENCY CLEAN ROOMS AIR CONDITIONING SYSTEMS." Theory and Building Practice 2022, no. 2 (December 20, 2022): 44–48. http://dx.doi.org/10.23939/jtbp2022.02.044.

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The article is devoted to increasing the efficiency of the air conditioning systems of clean rooms, which maintain the microclimate parameters in a given range according to several indicators - the number and size per 1 m³ of dust particles, aerosols, microorganisms and pressure, humidity, and temperature. Clean rooms are used in microelectronics, instrumentation, medicine and medical industry, pharmacology, laboratories, optics production, food industry, biotechnology, aviation, and space industry. Recently, abroad and in Ukraine, with the aim of saving energy resources, fundamental research is being conducted in a number of technologies from the perspective of exergetic methodology. This contributes to an objective assessment of the degree of energy perfection of devices and processes related to energy conversion in modern technologies. For this purpose, the authors developed an exergetic method of analyzing the operation of the direct-flow central air conditioning system of clean rooms.

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李, 奥森. "Research of Using ACCC in Transmission Line of Clean Energy." Transmission and Distribution Engineering and Technology 05, no. 03 (2016): 33–40. http://dx.doi.org/10.12677/tdet.2016.53005.

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Qiao, Shuang, Pan Wang, and Yang Bai. "Global Clean Energy Governance Mechanism Research - Based on power model." IOP Conference Series: Earth and Environmental Science 565 (October 1, 2020): 012009. http://dx.doi.org/10.1088/1755-1315/565/1/012009.

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Zhang, Jianzhong, Jingwen Liu, Xiang Shao, and Xianwei Du. "The research on power dispatching to improve clean energy utilization." IOP Conference Series: Materials Science and Engineering 677 (December 10, 2019): 042013. http://dx.doi.org/10.1088/1757-899x/677/4/042013.

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Weijermars, R., G. Drijkoningen, T. J. Heimovaara, E. S. J. Rudolph, G. J. Weltje, and K. H. A. A. Wolf. "Unconventional gas research initiative for clean energy transition in Europe." Journal of Natural Gas Science and Engineering 3, no. 2 (May 2011): 402–12. http://dx.doi.org/10.1016/j.jngse.2011.04.002.

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Zhang, Qunli, Yangyang Hao, Donghan Sun, Qian Nie, and Liwen Jin. "Research on the Clean Energy Heating Systems in Rural Beijing." Energy Procedia 143 (December 2017): 137–43. http://dx.doi.org/10.1016/j.egypro.2017.12.661.

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Hijikata, Tsuneo. "Research and development of international clean energy network using hydrogen energy (WE-NET)." International Journal of Hydrogen Energy 27, no. 2 (February 2002): 115–29. http://dx.doi.org/10.1016/s0360-3199(01)00089-1.

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Lewis, Joanna I. "Managing intellectual property rights in cross-border clean energy collaboration: The case of the U.S.–China Clean Energy Research Center." Energy Policy 69 (June 2014): 546–54. http://dx.doi.org/10.1016/j.enpol.2013.12.053.

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Medunić, Gordana, Deepti Mondol, Ankica Rađenović, and Sadhana Nazir. "REVIEW OF THE LATEST RESEARCH ON COAL, ENVIRONMENT, AND CLEAN TECHNOLOGIES." Rudarsko-geološko-naftni zbornik 33, no. 3 (2018): 13–21. http://dx.doi.org/10.17794/rgn.2018.3.2.

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Rui, Luo, Gao Ming, Guo Taiping, Chen Weiwei, and Jing Shibo. "Research on Ability of Clean Energy Consumption of Electric Heating in Northern Areas." E3S Web of Conferences 185 (2020): 01028. http://dx.doi.org/10.1051/e3sconf/202018501028.

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With the country’s vigorous promotion of clean heating in the north, clean energy heating is becoming a trend. Using clean energy for heating can not only improve the grid’s ability to consume clean energy, but also make an important contribution to reducing environmental pollution. Therefore, clean and pollution-free electric heating is currently the most important way of clean heating in northern areas. This paper takes an area in Xinjiang as an example, it not only analyzes the effect of regenerative electric heating on wind power absorption capacity, but also sorts out the current status of electric heating and related policies, which is of great significance to the promotion of electric heating in Xinjiang.

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Zhao, Ailin, Kailin Zhang, Meiqi Sheng, Qibo Yan, Weili Ren, Baohua Bai, Xichao Zhou, Xiaochun Zhang, and Ming Zeng. "Research on Economy of Clean Energy Power Generation Technology Based on CORE Method." E3S Web of Conferences 358 (2022): 02013. http://dx.doi.org/10.1051/e3sconf/202235802013.

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Clean energy power generation has good economic and social benefits for promoting regional development. However, clean energy power generation is in the growth stage, and the difference of investment income is obvious. Therefore, it is of great significance to study the economy of clean energy power generation technology. In view of this, considering the influencing factors on economy of clean energy power generation technology, this paper proposes a technical economy evaluation and cost trend analysis model for clean energy power generation, which includes three modules: input, output and analysis calculation. Finally, taking Africa as an example, under the three scenarios of high utilization hours, medium utilization hours and low utilization hours, the paper analyzes the economy of photovoltaic power generation in Africa, and concludes that the cost of photovoltaic power generation in the northern and southern of Africa has a certain degree of network transmission economy.

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Li, Yuxing, Yu Shi, Hao Li, Xuefeng Gao, and Yeyang Zhu. "Research on Clean Heating Technology in Northern Urban China." E3S Web of Conferences 292 (2021): 01003. http://dx.doi.org/10.1051/e3sconf/202129201003.

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Currently, with the rapid development of small towns in China, residents’ heating demand has been increasing, which exposes the heating problems of the small towns. Especially in the heating season, the energy consumption of buildings accounting for a decent proportion and the increase in pollution emissions can seriously affect the lives of residents. To alleviate these problems and promote clean heating, it is necessary to investigate the resources situation of small towns and design targeted heating lines for load areas. Therefore, this article used data analysis, described the population, construction area and industrial structure of small towns in the northern region, summarized the current development trend of small towns in China. Besides, taking the small towns in Inner Mongolia Autonomous Region as an example, this paper tried to understand the heating problems of small towns, including low energy efficiency of thermal energy and poor thermal insulation of buildings. Based on the supply and demand side of small towns and the differences in the endowment characteristics in various regions, this paper also proposed different clean heating technology paths.

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Zhang, Wei, Binshuai Li, Rui Xue, Chengcheng Wang, and Wei Cao. "A systematic bibliometric review of clean energy transition: Implications for low-carbon development." PLOS ONE 16, no. 12 (December 3, 2021): e0261091. http://dx.doi.org/10.1371/journal.pone.0261091.

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More voices are calling for a quicker transition towards clean energy. The exploration and exploitation of clean energy such as wind energy and solar energy are effective means to optimise energy structure and improve energy efficiency. To provide in-depth understanding of clean energy transition, this paper utilises a combination of multiple bibliometric mapping techniques, including HistCite, CiteSpace and R Bibliometrix, to conduct a systematic review on 2,191 clean energy related articles obtained from Web of Science (WoS). We identify five current main research streams in the clean energy field, including Energy Transition, Clean Energy and Carbon Emission Policy, Impact of Oil Price on Alternative Energy Stocks, Clean Energy and Economics, and Venture Capital Investments in Clean Energy. Clearly, the effectiveness of policy-driven and market-driven energy transition is an important ongoing debate. Emerging research topics are also discussed and classified into six areas: Clean Energy Conversion Technology and Biomass Energy Utilisation, Optimisation of Energy Generation Technology, Policy-Making in Clean Energy Transition, Impact of Clean Energy Use and Economic Development on Carbon Emissions, Household Use of Clean Energy, and Clean Energy Stock Markets. Accordingly, more and more research attention has been paid to how to improve energy efficiency through advanced clean energy technology, and how to make targeted policies for clean energy transition and energy market development. This article moves beyond the traditional literature review methods and delineates a systematic research agenda for clean energy research, providing research directions for achieving low-carbon development through the clean energy transition.

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Ni, Chenyixuan, Xiaodai Xue, Shengwei Mei, Xiao-Ping Zhang, and Xiaotao Chen. "Technological Research of a Clean Energy Router Based on Advanced Adiabatic Compressed Air Energy Storage System." Entropy 22, no. 12 (December 20, 2020): 1440. http://dx.doi.org/10.3390/e22121440.

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As a fundamental infrastructure of energy supply for future society, energy Internet (EI) can achieve clean energy generation, conversion, storage and consumption in a more economic and safer way. This paper demonstrates the technology principle of advanced adiabatic compressed air energy storage system (AA-CAES), as well as analysis of the technical characteristics of AA-CAES. Furthermore, we propose an overall architectural scheme of a clean energy router (CER) based on AA-CAES. The storage and mutual conversion mechanism of wind and solar power, heating, and other clean energy were designed to provide a key technological solution for the coordination and comprehensive utilization of various clean energies for the EI. Therefore, the design of the CER scheme and its efficiency were analyzed based on a thermodynamic simulation model of AA-CAES. Meanwhile, we explored the energy conversion mechanism of the CER and improved its overall efficiency. The CER based on AA-CAES proposed in this paper can provide a reference for efficient comprehensive energy utilization (CEU) (93.6%) in regions with abundant wind and solar energy sources.

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Dincer, I., and G. F. Naterer. "Overview of hydrogen production research in the Clean Energy Research Laboratory (CERL) at UOIT." International Journal of Hydrogen Energy 39, no. 35 (December 2014): 20592–613. http://dx.doi.org/10.1016/j.ijhydene.2014.06.074.

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Zheng, Xinyu, Jing Luo, Zheyuan Liu, Qian Wang, Weidong Zhang, Chengkai Yang, and Yan Yu. "Advanced Research on Energy Storage Materials and Devices." Coatings 12, no. 7 (July 8, 2022): 971. http://dx.doi.org/10.3390/coatings12070971.

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Tontiwachwuthikul, Paitoon (P T), Malcolm Wilson, and Raphael Idem. "CO2-capture research and Clean Energy Technologies Research Institute (CETRI) of University of Regina, Canada: history, current status and future development." Clean Energy 6, no. 1 (December 31, 2021): 883–90. http://dx.doi.org/10.1093/ce/zkab056.

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Summary Clean Energy Technologies Research Institute (CETRI) was formerly known as the International Test Centre for CO2 Capture in the early 2000s. The original focus of the centre was to help lower the carbon intensity of the current energy sources to low-carbon ones in Canada. Currently, CETRI’s mandates have expanded and now include most of the low-carbon and near-carbon-free clean-energy research activities. Areas of research focus include carbon (CO2) capture, utilization and storage (CCUS), near-zero-emission hydrogen (H2) technologies, and waste-to-renewable fuels and chemicals. CETRI also brings together one of the most dynamic teams of researchers, industry leaders, innovators and educators in the clean and low-carbon energy fields.

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Olaniyi, Eunice O., Sina Atari, and Gunnar Prause. "Maritime Energy Contracting for Clean Shipping." Transport and Telecommunication Journal 19, no. 1 (March 1, 2018): 31–44. http://dx.doi.org/10.2478/ttj-2018-0004.

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Abstract To reduce the Sulphur emission from shipping and ensure clean shipping, a number of Sulphur Emission Control Areas (SECA) were enforced in special areas around the globe. From 2015, in SECA, ship owners are not allowed to use fuel with more than 0.1% Sulphur content. One of the major concerns for the SECA regulation is that maritime stakeholders have had to take into consideration the costs as well as the tolerable risks of their compliance investment options. Besides that, low freight rates have increased the competition and had caused financial pressure on ship owners so that lower capital reserves and low credibility levels limit the manoeuvring space for investment activities. The indications from BSR after 2015 showed that the low fuel price has eased the economic effects of the SECA regulation and as a result, most ship owners have delayed their investment decisions. Even though the postponement of emission abatement techniques seems to have reduced the compliance expenses for SECA, they, however, did not improve the position of shipowners relative to their competitors. Consequently, new policy instruments to stimulate innovation, to raise competitiveness and to comply with the new environmental regulations are needed. It would have been easier to hedge fuel price volatility and offer maritime logistics services for a lower price, but to be able to ensure sustainable results in long-term, maritime stakeholders must be ready to device astute strategies that can propel them to unparalleled advantage. This research first appraised the investment risks and payback period associated with the scrubber using different capital budgeting methods. It further illustrated the Maritime Energy Contracting (MEC) model as a market mechanism for the delivery of a cost-effective emission reduction using the scrubber technology as well as an instrument to realise a competitive advantage for ship operators. The results are empirically validated by case studies from BSR.

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Li, Xin, Rui Ying Jia, and Run Ping Niu. "Research on Energy Saving Diagnosis of Clean Air Conditioning System in Pharmaceutical Industry." Advanced Materials Research 977 (June 2014): 174–77. http://dx.doi.org/10.4028/www.scientific.net/amr.977.174.

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The purpose of building energy efficiency diagnosis was to find out the problems existing in the process of using energy and analysis the potential of energy saving to guide the owner who should improve the building energy efficiency as far as possible to reduce building energy consumption. This paper involves only the research on energy saving diagnosis of clean air conditioning system in pharmaceutical industry.

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Lu, Yingwei, Ming Gu, Xiaolei Bai, and Geran Wei. "Research on Urban Clean Energy System Evolution Model Based on Grey Theory." IOP Conference Series: Earth and Environmental Science 692, no. 2 (March 1, 2021): 022017. http://dx.doi.org/10.1088/1755-1315/692/2/022017.

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Duran, A. Serasu, Atalay Atasu, and Luk N. Van Wassenhove. "Cleaning after solar panels: applying a circular outlook to clean energy research." International Journal of Production Research 60, no. 1 (October 29, 2021): 211–30. http://dx.doi.org/10.1080/00207543.2021.1990434.

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Yin, Hexuan, Xiaowen Wang, and Ying Wang. "Research on Optimal Scheduling Algorithm for Interruptible Load for Clean Electric Energy." IOP Conference Series: Earth and Environmental Science 804, no. 3 (July 1, 2021): 032057. http://dx.doi.org/10.1088/1755-1315/804/3/032057.

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Blasch, J., N. M. van der Grijp, D. Petrovics, J. Palm, N. Bocken, S. J. Darby, J. Barnes, et al. "New clean energy communities in polycentric settings: Four avenues for future research." Energy Research & Social Science 82 (December 2021): 102276. http://dx.doi.org/10.1016/j.erss.2021.102276.

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Singh, Sanjeet, and Jayaram Ru. "Accessibility, affordability, and efficiency of clean energy: a review and research agenda." Environmental Science and Pollution Research 29, no. 13 (January 11, 2022): 18333–47. http://dx.doi.org/10.1007/s11356-022-18565-9.

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Zhong, Jia Qing, Zhi Gang Lu, and Ke Ke Yan. "Multi-Objective Model Research with Clean Energy Technologies in Low Carbon Power Planning." Applied Mechanics and Materials 341-342 (July 2013): 1223–28. http://dx.doi.org/10.4028/www.scientific.net/amm.341-342.1223.

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With the increasing development of clean energy technologies, the application of new energy and carbon capture technology would have a positive effect for CO2 emissions reduction. In this paper, planning of power system model including clean energy technology facing low carbon targets established, considering the carbon emission rights allocation and carbon trading. By studying coal-fired power plant planning model with wind power and carbon capture technology for the future planning period, establish the multi-objective model of minimum comprehensive cost and biggest carbon trading gains, considering constraint conditions of power generating capacity, wind power integrated capacity and carbon emissions reduction targets. Use the bacterial colony chemotaxis algorithm for optimization calculation of the power planning, to give a planning scheme that can meet the requirements of economic development trend and emission reducing requirements.

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HAYASHI, KATSUHIKO. "Geothermal Energy: Clean and Reliable Energy for 21st Century. Geothermal Energy Research and Development Projects in MITI, Japan." Journal of the Institute of Electrical Engineers of Japan 117, no. 11 (1997): 756–59. http://dx.doi.org/10.1541/ieejjournal.117.756.

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Josephson, Colleen, Weitao Shuai, Gabriel Marcano, Pat Pannuto, Josiah Hester, and George Wells. "The Future of Clean Computing May Be Dirty." GetMobile: Mobile Computing and Communications 26, no. 3 (October 7, 2022): 9–15. http://dx.doi.org/10.1145/3568113.3568117.

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The emergence of the Internet of Things and pervasive sensor networks have generated a surge of research in energy scavenging techniques. We know well that harvesting RF, solar, or kinetic energy enables the creation of battery-free devices that can be used where frequent battery changes or dedicated power lines are impractical. One unusual yet ubiquitous source of power is soil (earth itself) - or more accurately, bacterial communities in soil. Microbial fuel cells (MFCs) are electrochemical cells that harness the activities of microbes that naturally occur in soil, wetlands, and wastewater. MFCs have been a topic of research in environmental engineering and microbiology for decades, but are a relatively new topic in electronics design and research. Most low-power electronics have traditionally opted for batteries, RF energy, or solar cells. This is changing, however, as the limitations and costs of these energy sources hamper our ability to deploy useful systems that last for decades in challenging environments. If large-scale, long-term applications like underground infrastructure monitoring, smart farming, and sensing for conservation are to be possible, we must rethink the energy source.

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Zhang, Yiming. "Research on the Diversified Development of Energy System in China." E3S Web of Conferences 242 (2021): 02004. http://dx.doi.org/10.1051/e3sconf/202124202004.

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With faster industrial development, the demand for energy increases dramatically. As demand rises, the supply of energy grows a lot. Although with new technologies, traditional energy, such as burning coal, is still the main way of producing energy. Traditional production has a huge and irreversible hurt to the environment, which should be substituted by new clean energy. Finding out the new resources and making them work in the real energy market is the primary goal of energy development. This article mainly describes the current status of China’s natural clean energy, and then combines the advantages and disadvantages of many aspects and proposes several methods suitable for the multiple development of energy. Comprehensively considering the clean and high-efficiency characteristics of future energy development, a circular model of energy consumption and production capacity has been formed in all aspects, reducing energy waste and increasing energy consumption restrictions due to instability. In view of the development characteristics of China’s existing vast land and resources, and the huge energy demand groups, small-quantity, multi-site and diverse energy development is the future trend of China’s energy development. However, the existing utilization and utilization rate of these natural resources are very low, and although a large number of traditional production capacity industries can meet the energy supply demand, they have a great impact on the environment. President Xi once said that green waters and green mountains are our golden and silver mountains. Such environmentally friendly energy development is the ultimate goal we want to achieve.

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Xin, Wu, Han Pan, and Yuping Li. "Forecast Research on the Proportion of Clean Energy Consumption in Total Energy Consumption Based on GM(1,1) Model." E3S Web of Conferences 251 (2021): 01085. http://dx.doi.org/10.1051/e3sconf/202125101085.

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Clean energy can not only alleviate environmental problems but also contribute to rapid and sustainable development. The gray system is based on the sequence operator to process the original data and mine the law of change. GM(1,1) is a specific method of mining data, by building a GM(1,1) model to accumulate and generate data, the randomness of the data can be weakened and its regularity can be revealed. Here we use the GM(1,1) model to dynamically predict the future consumption rate of clean energy. This research not only provides data support for China’s green development, but also provides suggestions for improvement based on actual conditions.

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Gao, Yi, Zhe Liu, Xinzhi Xu, Yanfen Guo, and Jun Li. "Research and Outlook on Northeast Asian Energy Interconnection." E3S Web of Conferences 209 (2020): 04006. http://dx.doi.org/10.1051/e3sconf/202020904006.

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Northeast Asia is the most developed region in Asia with large energy demand, and plays an important role in the global economic development. Northeast Asia has been facing severe challenges in ensuring energy security, protecting the environment, and coping with climate change, because of their high dependency on fossil fuels and imports of oil from outside the region, and inverse distribution between energy resources and demand. In order to actively respond to climate change, promote the transition to low-carbon energy and sustainable development in the region, achieve the grand purpose of economic prosperity, social progress and ecological protection, this study is conducted with a focus on power grid interconnection in Northeast Asia. Based on the historical energy and power data in Northeast Asia, this paper studies the development trends of energy and power demand in future by combining qualitative and quantitative methods. Considering the distribution of clean energy bases, this paper proposes an energy interconnection scheme in Northeast Asia with high clear energy penetration scenario. To form the Asia-Europe energy interconnection, the construction of the Asia-Europe interconnection channels is briefly analyzed in this paper.

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Journal articles on the topic 'Clean energy – Research'

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