Bibliographies thématiques / Global energy interconnection

Littérature scientifique sur le sujet « Global energy interconnection »

Auteur : Grafiati
Publié le 14 mars 2023

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Articles de revues sur le sujet "Global energy interconnection"

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Imdadullah, Basem Alamri, Md Alamgir Hossain et M. S. Jamil Asghar. « Electric Power Network Interconnection : A Review on Current Status, Future Prospects and Research Direction ». Electronics 10, no 17 (6 septembre 2021) : 2179. http://dx.doi.org/10.3390/electronics10172179.

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An interconnection of electric power networks enables decarbonization of the electricity system by harnessing and sharing large amounts of renewable energy. The highest potential renewable energy areas are often far from load centers, integrated through long-distance transmission interconnections. The transmission interconnection mitigates the variability of renewable energy sources by importing and exporting electricity between neighbouring regions. This paper presents an overview of regional and global energy consumption trends by use of fuel. A large power grid interconnection, including renewable energy and its integration into the utility grid, and globally existing large power grid interconnections are also presented. The technologies used for power grid interconnections include HVAC, HVDC (including LCC, VSC comprising of MMC-VSC, HVDC light), VFT, and newly proposed FASAL are discussed with their potential projects. Future trends of grid interconnection, including clean energy initiatives and developments, UHV AC and DC transmission systems, and smart grid developments, are presented in detail. A review of regional and global initiatives in the context of a sustainable future by implementing electric energy interconnections is presented. It presents the associated challenges and benefits of globally interconnected power grids and intercontinental interconnectors. Finally, in this paper, research directions in clean and sustainable energy, smart grid, UHV transmission systems that facilitate the global future grid interconnection goal are addressed.
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Zhou, Yuanbing. « Global Energy Interconnection vision and key technologies ». Chinese Science Bulletin 64, no 19 (1 juillet 2019) : 1985–94. http://dx.doi.org/10.1360/n972018-00757.

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Li, Jun, Zhengxi Chen, Chen Chen, Yangzi Wang, Fulong Song et 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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Koboević, Žarko, Zvonimir Šoša et Nikša Koboević. « Belt and Road Initiative with Global Energy Interconnection ». Časopis Pomorskog fakulteta Kotor - Journal of Maritime Sciences 23, no 2 (19 novembre 2022) : 52–64. http://dx.doi.org/10.56080/jms221105.

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Belt and road initiative delivers an idea for Global Energy Interconnection (GEI) as globally interconnected strong and smart grid based on Ultra-High Voltage (UHV). Global Energy Interconnection is an infrastructure platform that can be used for clean energy production, transition and consumption worldwide. GEI facilitate efforts to meet global power demand with clean and green alternatives as low carbon energy. GEI is promoting integration of energy, information and transportation networks, enlarging global power trade, ensuring universal electricity service. GEI optimizes resource allocation and utilization by converting various energy sources including coal, oil, hydro, wind and solar into electricity and transmitting over long distance. It can achieve mutual support and free trade of clean energy from different regions, and maximize energy efficiency and economy by taking advantages of time-zone, seasonal and price difference. Actually, Global Energy Interconnection is a system that consist of “Smart Grid”, “UHV Grid” and “Clean Energy”. Smart Grid integrates modern smart technologies with respect to advanced power transmission, smart control, new energy integration and new energy storage. UHV Grid is mainly composed of 1000 kV (and above) AC and +-800 kV (and above) DC transmission lines, featuring long transmission distance, large capacity, high efficiency, low line loss, less land use and high security. The shaping up of GEI can be divided into three phase: domestic, intra-continental and intercontinental interconnection. UHV Grid result is visible in already tested in practice transmission lines of DC and AC voltage. Over 20 UHV networks have been built in China. There is one network longer than 2000 km in Brazil, and two networks of UHV in India.
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Wu, Cong, Xiao-Ping Zhang et Michael J. H. Sterling. « Global Electricity Interconnection With 100% Renewable Energy Generation ». IEEE Access 9 (2021) : 113169–86. http://dx.doi.org/10.1109/access.2021.3104167.

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Xu, Xinzhi, Xingyuan Zhao, Jun Li, Yi Gao, Ping Yan et Fang Chen. « Quantitative credibility evaluation of Global Energy Interconnection data ». Global Energy Interconnection 2, no 6 (décembre 2019) : 513–20. http://dx.doi.org/10.1016/j.gloei.2020.01.005.

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Chu, Xiaodong, Weihao Wang, Maosen Tang, Haoyi Huang et Lei Zhang. « Information system risk assessment for global energy interconnection ». IOP Conference Series : Earth and Environmental Science 227 (2 mars 2019) : 032044. http://dx.doi.org/10.1088/1755-1315/227/3/032044.

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Huang, Qili. « Insights for global energy interconnection from China renewable energy development ». Global Energy Interconnection 3, no 1 (février 2020) : 1–11. http://dx.doi.org/10.1016/j.gloei.2020.03.006.

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Liang, Wang, et Zheng Zhe. « Application of 802.11ah wireless technology in Global Energy Interconnection ». MATEC Web of Conferences 139 (2017) : 00131. http://dx.doi.org/10.1051/matecconf/201713900131.

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Li, Junfeng, et Siyu Jiang. « Global Energy Interconnection : an effective solution to climate challenges ». Global Energy Interconnection 1, no 4 (octobre 2018) : 406–8. http://dx.doi.org/10.1016/s2096-5117(18)30075-6.

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Thèses sur le sujet "Global energy interconnection"

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Xin, Liu. « Ensino de PLE com fins específicos : curso de portugês de energia para funcionários chineses das entidades-membros da GEIDCO nos PLOP ». Master's thesis, 2019. http://hdl.handle.net/10451/37921.

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O presente trabalho destina-se especificamente aos funcionários chineses das empresas-membros estatais chinesas da GEIDCO (Global Energy Interconnection Developmente and Cooperation Organization1) que trabalham nos PLOP (Países de Língua Oficial Portuguesa), a fim de beneficiar o progresso internacional do desenvolvimento sustentável desta organização, sobretudo na sua área de desenvolvimento e comunicação com as entidades-membros dos PLOP, contribuindo paralelamente para a expansão do ensino de PLE (Português Língua Estrangeira) com fins específicos, pelo estabelecimento de uma proposta de modelo didático de curso do ensino-aprendizagem de Português de Energia. Para atingir estes objetivos, foi necessário: 1) investigar a situação de vida e trabalho dos funcionários residentes nos PLOP que trabalham nas áreas relacionadas com a GEIDCO; 2) analisar as necessidades objetivas quanto à aprendizagem de PLE com base nos resultados do inquérito I2; 3) averiguar as suas motivações, preferências e sugestões através das opiniões dos inquiridos que servem como representantes dos aprendentes-alvo; e por fim, 4; determinar a viabilidade e necessidade da criação de um curso interno de PLE segundo os critérios relativos sobretudo à competência comunicativa do QECR (Quadro Europeu Comum de Referência para as Línguas). Procedeu-se também a uma reflexão aprofundada sobre i) o efeito da política linguística no processo da promoção das linguas estrangeiras; ii) o interesse de aprendizagem de LE dos funcionários chineses que foram mandados trabalhar nos PLOP; iii) o ensino de PLE para fins específicos sobretudo o português aplicado à área de energia; iv) a abordagem intercultural nos cursos de línguas e v) a integração social para funcionários da GEIDCO que beneficiam das competências linguísticas.
The following research study is specifically designed for the Chinese official workers of the State-owned member enterprises the GEIDCO (Global Energy Interconnection Development and Cooperation Organization) in the PLOP (Portuguese Speaking Countries) in order to benefit the international progress of this organization in sustainable development, especially in its area of development and communication with PLOP member entities. Contributing in parallel to the expansion of PLE (Portuguese Language Foreign Language) teaching with specific purposes through later establishing a proposal of the didactic model of the Portuguese-Energy teaching-learning course. To achieve these objectives, it was necessary to: 1. investigate the life and work situation of the Chinese employees living in the PLOP (Countries of Portuguese Official Language) who work in the areas related to GEIDCO; 2. analyze the objective needs for learning PLE based on the results of the survey I; 3. ascertain their motivations, preferences and suggestions through the opinions of those inquirers who serve as representatives of the target learners; and finally, 4. determine the viability and necessity of creating an internal PLE course according to the criteria of the communicative competences of the QECR (Common European Framework of Reference for Languages). There was also a deep reflection on i) the effect of the policy in the process of promoting foreign languages; ii) the LE learning interest of the Chinese officials who were sent to work for the PLOP; iii) the teaching of PLE for specific purposes, especially Portuguese applied in the area of energy; (iv) the intercultural approach in language courses; and (v) social integration for GEIDCO employees who benefit from language skills.
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Livres sur le sujet "Global energy interconnection"

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Global Energy Interconnection. Elsevier, 2015. http://dx.doi.org/10.1016/c2015-0-01255-2.

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Liu, Zhenya. Global Energy Interconnection. Elsevier Science & Technology Books, 2015.

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Liu, Zhenya. Global Energy Interconnection. Elsevier Science & Technology Books, 2015.

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Raj, A. Kanni. Energy : International Energy Interconnections to Meet Global Energy Supply Challenges. CreateSpace Independent Publishing Platform, 2018.

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González Huerta, R. G., J. M. Sandoval Pineda, N. Hernández Pérez et E. Álvarez del Rio. Interconnection to the network and energy storage systems. State of the art. EPOMEX-UAC, 2017. http://dx.doi.org/10.26359/epomex.cemie022017.

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For technical reasons, the amount of electricity fed to the electrical grid must always remain at the same level of the demand requested by theconsumers to prevent blackouts and damage to the network. This leads to situations where production is greater than consumption and vice versa. This is where storage system technologies and interconnection to the network play a key role in balancing these disadvantages. Untilrecently, the utility of energy storage systems was focused on improving the efficiency of conventional generation systems, such as the use of pumped hydroelectricity to supplement the supply to the network in periods of extra demand or for plant start-ups. This type of storage technology is today the most reliable and in many ways the only one economically available. However, its use it is limited to specific cases that meet strict characteristics. Currently globally, the approach to storage technologies of energy, is to help improve the overall sustainability of large quantities of renewable energies, coming from intermittent sources such like the sun, the sea or the wind
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Chapitres de livres sur le sujet "Global energy interconnection"

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Min, Thu Yein, He Haiyang, Michael G. Tyagunov, Tatiana A. Shestopalova et Aung Ko. « Development of Renewable Energy Resources in Global Energy Interconnection ». Dans Data Analysis and Optimization for Engineering and Computing Problems, 175–91. Cham : Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-48149-0_13.

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Zou, Ying, Yuan-kun Jiang et Qiu-hong Shi. « Analyses on Requirements of Information and Communication Standard for Global Energy Interconnection ». Dans Advances in Intelligent Systems and Computing, 951–62. Singapore : Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-10-8944-2_110.

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da Silva, Izael, Daniele Bricca, Andrea Micangeli, Davide Fioriti et Paolo Cherubini. « Triple Helix as a Strategic Tool to Fast-Track Climate Change Adaptation in Rural Kenya : Case Study of Marsabit County ». Dans African Handbook of Climate Change Adaptation, 1873–95. Cham : Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-45106-6_76.

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AbstractThe lack of affordable, clean, and reliable energy in Africa’s rural areas forces people to resort to poor quality energy source, which is detrimental to the people’s health and prevents the economic development of communities. Moreover, access to safe water and food security are concerns closely linked to health issues and children malnourishment. Recent climate change due to global warming has worsened the already critical situation.Electricity is well known to be an enabler of development as it allows the use of modern devices thus enabling the development of not only income-generating activities but also water pumping and food processing and conservation that can promote socioeconomic growth. However, all of this is difficult to achieve due to the lack of investors, local skills, awareness by the community, and often also government regulations.All the above mentioned barriers to the uptake of electricity in rural Kenya could be solved by the coordinated effort of government, private sector, and academia, also referred to as Triple Helix, in which each entity may partially take the other’s role. This chapter discretizes the above and shows how a specific county (Marsabit) has benefited from this triple intervention. Existing government policies and actions and programs led by nongovernmental organizations (NGOs) and international agencies are reviewed, highlighting the current interconnection and gaps in promoting integrated actions toward climate change adaptation and energy access.
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Matheri, Anthony Njuguna, Belaid Mohamed et Jane Catherine Ngila. « Smart Climate Resilient and Efficient Integrated Waste to Clean Energy System in a Developing Country : Industry 4.0 ». Dans African Handbook of Climate Change Adaptation, 1053–80. Cham : Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-45106-6_69.

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AbstractClimate change impacts a natural and human system on the entire globe. Climate-related extreme weather such as drought, floods, and heat waves alters the ecosystems that society depends on. Climate, land, energy, and water systems (CLEWS) are a critical aspect of high importance on resource availability, distribution, and interconnection. The nexus provides a set of guidelines to South Africa that aims on creating a level playing field for all sectors while achieving the aims of the SDGs that are cross-sectoral and multilevel approaches to climate change. The nexus expressed three domains that included resources, governance, and security. It integrated a smart climate resilient with inclusion of the governance and involvement of the stakeholders. Recognition of spatial and sector interdependencies should inform policies, investment and institutional for enhancing nexus security and climate change towards making transition green carbon deals. The nexus offers an integrated approach that analyzes the trade-offs and synergies between the different sectors in order to maximize the efficiency of using the resources that adapt institutional and optimum policy arrangements. Economic transformation and creation of employment through green economy is one of the COP26 green deal agendas in curbing the carbon emissions (green house emission, industrial processes, fuel combustion, and fugitive emissions) as mitigation to climate change, which is cost-effective and economically efficient. The future climate change policy in the developing countries is likely to be both promoted by climate technology transfer and public-private cooperation (cross-sector partnership) through the technology mechanism of the nexus and inclusion of the gender.
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Liu, Zhenya. « A Global Energy Outlook ». Dans Global Energy Interconnection, 91–100. Elsevier, 2015. http://dx.doi.org/10.1016/b978-0-12-804405-6.00003-8.

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Liu, Zhenya. « Building Global Energy Interconnection ». Dans Global Energy Interconnection, 183–237. Elsevier, 2015. http://dx.doi.org/10.1016/b978-0-12-804405-6.00005-1.

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Liu, Zhenya. « Global Energy Development : The Reality and Challenges ». Dans Global Energy Interconnection, 1–64. Elsevier, 2015. http://dx.doi.org/10.1016/b978-0-12-804405-6.00001-4.

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Liu, Zhenya. « Clean Energy Replacement and Electricity Replacement ». Dans Global Energy Interconnection, 65–90. Elsevier, 2015. http://dx.doi.org/10.1016/b978-0-12-804405-6.00002-6.

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Liu, Zhenya. « Supply and Demand of Global Energy and Electricity ». Dans Global Energy Interconnection, 101–82. Elsevier, 2015. http://dx.doi.org/10.1016/b978-0-12-804405-6.00004-x.

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Liu, Zhenya. « Innovation in Global Energy Interconnection Technologies ». Dans Global Energy Interconnection, 239–72. Elsevier, 2015. http://dx.doi.org/10.1016/b978-0-12-804405-6.00006-3.

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Actes de conférences sur le sujet "Global energy interconnection"

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Voropai, N. I., et S. V. Podkovalnikov. « Towards Global Energy Interconnection : Concept, Technologies, Challenges ». Dans 2019 Twelfth International Conference "Management of large-scale system development" (MLSD). IEEE, 2019. http://dx.doi.org/10.1109/mlsd.2019.8911062.

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Zhou, Zhou, Fan Yang, Xi Li, Wei Wang, Yun Zhao et Haibin Wan. « Exploration of Renewable Energy Standardization for Global Energy Interconnection Development ». Dans 2022 7th Asia Conference on Power and Electrical Engineering (ACPEE). IEEE, 2022. http://dx.doi.org/10.1109/acpee53904.2022.9783963.

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Liu, Lin, et Yi Zhang. « Comprehensive evaluation of global energy interconnection development index ». Dans INTERNATIONAL SYMPOSIUM ON MATERIAL SCIENCE AND ENGINEERING 2018 : ISMSE 2018. Author(s), 2018. http://dx.doi.org/10.1063/1.5030317.

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Rangarajan, Shriram S., E. Randolph Collins, J. Curtiss Fox et D. P. Kothari. « A survey on global PV interconnection standards ». Dans 2017 IEEE Power and Energy Conference at Illinois (PECI). IEEE, 2017. http://dx.doi.org/10.1109/peci.2017.7935716.

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Zhang, Fuqiang, Zhicheng Xu, Bingqi Jiao, Jie Yang et Junshu Feng. « Global energy interconnection based optimal power systems planning — A global perspective 2016–2050 ». Dans 2017 China International Electrical and Energy Conference (CIEEC). IEEE, 2017. http://dx.doi.org/10.1109/cieec.2017.8388561.

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Yu, Xueliang, Hengxu Zhang, Fang Shi, Lei Zhang et Yong Zhang. « A numerical approach for macroscopic property simulation in global energy interconnection ». Dans 2017 IEEE Conference on Energy Internet and Energy System Integration (EI2). IEEE, 2017. http://dx.doi.org/10.1109/ei2.2017.8245275.

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Feng, Limin, Xinzhi Xu, Wenhao Wang, Lu Wang, Hualu Zhang, Wei Li et Ying Zhang. « The design and implementation of global energy interconnection digital research platform ». Dans 2017 IEEE Conference on Energy Internet and Energy System Integration (EI2). IEEE, 2017. http://dx.doi.org/10.1109/ei2.2017.8245621.

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Yang, Xin, Zhe Chen, Shiwen Wang, Xianghua Yu, Liting Wang et Qian Li. « A Dynamic Simulation Method of Global Energy Interconnection Evolution Process ». Dans 2019 IEEE 3rd Advanced Information Management, Communicates, Electronic and Automation Control Conference (IMCEC). IEEE, 2019. http://dx.doi.org/10.1109/imcec46724.2019.8983896.

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Zhang, Yi, Yongxiu He, Sifan Ge et Lin Liu. « Analysis of the influencing factors of global energy interconnection development ». Dans INTERNATIONAL SYMPOSIUM ON MATERIAL SCIENCE AND ENGINEERING 2018 : ISMSE 2018. Author(s), 2018. http://dx.doi.org/10.1063/1.5030311.

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Wei, Wang, et Zhou Zhou. « Architecture and Roadmap of Standard System for Global Energy Interconnection ». Dans 2020 IEEE Student Conference on Electric Machines and Systems (SCEMS). IEEE, 2020. http://dx.doi.org/10.1109/scems48876.2020.9352417.

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