Bibliografías temáticas / Super thermal power project

Literatura académica sobre el tema "Super thermal power project"

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Publicado: 18 de mayo de 2024

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Artículos de revistas sobre el tema "Super thermal power project"

1

Hui, X. J., J. Wang, Y. C. Hu y S. Wang. "Preliminary consideration of the beam screen for the super proton-proton collider". Journal of Instrumentation 17, n.º 11 (1 de noviembre de 2022): P11032. http://dx.doi.org/10.1088/1748-0221/17/11/p11032.

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Abstract This study evaluates the functional requirements of the Super Proton-proton Collider (SPPC) beam screen in view of the CEPC-SPPC project about to be built in China and aims to prove the feasibility of using the scaled FCC-type beam screen. Moreover, the study puts forward several feasible updated schemes with extra-cooling to optimize the cryogenic efficiency under the 12.8 W/m synchrotron radiation (SR) heat load and decrease the leaked SR power to the cold bore. The power distribution calculated by Synrad+ is imported into the Ansys workbench to get the exact thermal profile. The results show that the new scheme can restrict the temperature rise within 1 K, with a 30 g/s mass flow rate of the coolants. Such a profile can save over 1.3 MW electric power per turn.
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Houdková, Šárka, Zdeněk Česánek y Pavel Polach. "Solid Particle Erosion of Selected HVOF Sprayed Coatings". Applied Mechanics and Materials 827 (febrero de 2016): 39–46. http://dx.doi.org/10.4028/www.scientific.net/amm.827.39.

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The paper involves the subject and the chosen results of up to now solving of work package “Development of advanced surface treatment of components used in parts of turbines working under the condition of operational temperatures of steam using the HP/HVOF technology of thermal spraying” of the Competence Centre project “Centre of Research and Experimental Development of Reliable Energy Production”. The subject belongs to the field of material engineering and results of solving contribute to fulfilling the main project aim, which is a long time safeguarding of safe, reliable and financially available both classical thermal and nuclear sources of electric power, which consists in extending service life of existing and building new turbo generator blocks. The erosion wear resistance is one of the areas, which were observed. The impact of hard particles on the surface under variable impact angles was simulated in laboratory conditions using an in-house equipment. The wear resistance of selected HVOF sprayed hardmetal and super-alloy coatings was measured and the wear mechanism was evaluated. A strong influence of impact angle on both material volume loss and wear mechanism was monitored. The superior erosion wear properties of super-alloy coatings were proved, regardless the higher hardness of hardmetal coatings.
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3

Kirillov, Pavel L. y Galina P. Bogoslovskaya. "Generation IV supercritical water-cooled nuclear reactors: Realistic prospects and research program". Nuclear Energy and Technology 5, n.º 1 (11 de abril de 2019): 67–74. http://dx.doi.org/10.3897/nucet.5.34293.

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Existing conditions make possible obtaining information that being discussed openly by wide scientific community could help outlining or even establishing the expediency of a particular area of present and future research. Use link http://www.sciencedirect.com to learn about the topics or areas that most attract researchers from different countries. The Generation IV International Forum (GIF-IV) established in January 2000 has set a goal to improve the new generation of nuclear technologies in the following areas: stability, safety and reliability, economic competitiveness, proliferation resistance and physical protection. The purpose of the present publication is to prepare a discussion of one of the directions of development of fourth-generation NPPs, the groundwork for which has already been laid in thermal power engineering in various countries. The number of papers published annually on this topic is the largest among other similar topics dedicated to nuclear power plants of the fourth generation. Judging from the operating experience of existing nuclear power plants using water as a coolant, it can be ascertained that the tendency of building water-cooled nuclear power plants will remain during the next 30 to 50 years. During the present stage the task in the development of alternative types of reactors will be limited to demonstration of their performance and acceptability for future power engineering and the society. The project of supercritical water-cooled reactor is based on the operating experience of VVER, PWR, BWR reactors (more than 14,000 reactor-years); many years of experience accumulated in operating fossil thermal power plants (more than 400 power units; 20,000 years of operation of power units) using supercritical (25 MPa, 540°C) and super-supercritical (35–37 MPa, 620–700°C) water steam. In Russia more than 140 supercritical pressure units are currently in operation. Numerical calculation and design of supercritical water-cooled reactor (similarly to BR-10 reactor) will allow not only training personnel for future development of this technology, but will also help revealing the most difficult points requiring experimental confirmation with application of independent test facilities, as well as formulating the plan of first priority experimental studies. Knowledge accumulated over the last 10 years in the world allows the following: further specifying the already developed concept; developing a plan of specific priority studies; compiling task order for designing small-power pilot VVER SKP-30 reactor (30 MW-th). The scope of problems that are to be solved to substantiate VVER-SCP reactor and commence designing an experimental reactor with thermal capacity of 30 MW is the same as that in developing any type of nuclear reactor: physics of the reactor core; material related matters (primarily concerned with the reactor pressure vessel, fuel, and fuel rod cladding); thermal hydraulics of rod bundles in the near- and supercritical areas; water chemistry at supercritical pressure; corrosion of materials, development of safety systems. Research must be carried out both in static conditions and under irradiation. The absence in Russia during the extended time period of approved program with allocation of appropriate funding and preservation of the existing status during the coming two or three years will lead to the situation when Russia will be hopelessly lagging behind in the development of SCWR technology.
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Jiang, Haiyang, Liangliang Guo, Fengxin Kang, Fugang Wang, Yanling Cao, Zhe Sun y Meng Shi. "Geothermal Characteristics and Productivity Potential of a Super-Thick Shallow Granite-Type Enhanced Geothermal System: A Case Study in Wendeng Geothermal Field, China". Sustainability 15, n.º 4 (15 de febrero de 2023): 3551. http://dx.doi.org/10.3390/su15043551.

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Super-thick shallow granites without a cap layer are widely distributed in the Wendeng geothermal field. To evaluate the field’s productivity potential for an enhanced geothermal system (EGS), we carried out field tests, laboratory tests and numerical simulations in succession. The geothermal characteristics and deep rock mechanical properties were identified based on real geological and core data from the borehole ZK1 in Wendeng geothermal field. Then, a numerical model of reservoir hydraulic fracturing based on a discrete fracture network was established. Thermal extraction simulations were then conducted to assess the long-term productivity of an EGS project based on the fracturing results. Possible well layout patterns and operational parameters were considered. Results indicated that, for naturally fractured formations, large well spacings should be used and reservoirs with overdeveloped natural fractures should not be selected. For the same reservoir, created by stimulation, the production performances of five-spot and triplet-well modes were different. The pressure indicator was more sensitive to the choice of well layout mode than the temperature indicator. The power generation of the five-spot well mode was slightly improved above that of the triplet-well mode. When selecting the target reservoir, the formations with high temperatures, moderate natural fractures, and high in-situ stress shielding are preferable. On this basis, a large volume of fracturing fluids should be injected to stimulate the reservoir, making the reservoir length and width as large as possible. If the desired large-scale reservoir is created, the five-point well mode should be selected.
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Schweika, Werner, Mats Lindroos, Luca Zanini y Tord Ekelöf. "The future of ESS is bright". EPJ Web of Conferences 286 (2023): 01002. http://dx.doi.org/10.1051/epjconf/202328601002.

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The European Spallation Source ESS has still a huge upgrade potential by using an accelerator ring structure for proton pulse compression that can change the long pulse to a medium pulse structure. Therefore, we consider the performance of a medium pulse structure on the existing ESS target, moderator and neutron instrumentation. A medium proton pulse will enhance the neutron peak brightness of thermal and cold neutrons by about one order of magnitude and even up to two orders of magnitude at shortest wavelengths used at ESS, largely increasing the performance of the ESS instruments for neutron scattering. The arguments for a medium pulse length are that it is best adapted to the resolution requirements of the ESS instruments, the coupled moderator, the typical long instruments; furthermore, that it seems feasible to realise a medium pulse length by advanced, slow extraction from an accelerator ring, and feasible for the rotating tungsten target to take the high-power load. We discuss the implications of a medium proton pulse length and its specific choice for the instrument resolution, and for moderator and target. The proposed upgrade is stimulated by the new project ESSnuSB for a neutrino super beam at ESS and motivated by the synergy effect of using a common pulse compressor ring. The upgrade will be a most economical and efficient path for the ESS to a next higher level from an already world leading long-pulse source, transforming with a medium pulse structure into an even much more powerful, future next generation neutron source.
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6

Ikeda, Motoyasu. "Status of Super-Kamiokande Gadolinium project". Journal of Physics: Conference Series 2156, n.º 1 (1 de diciembre de 2021): 012150. http://dx.doi.org/10.1088/1742-6596/2156/1/012150.

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Abstract Super-Kamiokande (SK) is the world’s largest underground water Cherenkov detector. The latest phase of operations began in July 2020 when, in order to improve neutron detection efficiency, about 13 tons of gadolinium (Gd) sulfate octahydrate was dissolved into SK’s pure water. Gd has a large thermal neutron capture cross section and emits visible gamma rays. This first loading marked the start of what is now called SK-Gd, and stable physics data taking has been ongoing since then. This presentation will focus on details of the first Gd loading and the detector status including detector calibrations. Also, the future plan and the prospect of observations with SK-Gd will be discussed.
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KOUGAMI, Kyouichi y Hiroshi ISAKA. "The Development of Ultra-Super-Critical Thermal Power Plant". Tetsu-to-Hagane 76, n.º 7 (1990): 1043–52. http://dx.doi.org/10.2355/tetsutohagane1955.76.7_1043.

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Alicic, Merim, Sandira Eljsan y Indira Buljubasic. "Thermal power blocks with ultra-super-critical steam parameters". Tehnika 71, n.º 6 (2016): 833–37. http://dx.doi.org/10.5937/tehnika1606833a.

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Mukoyama, Shinichi, Satoshi Maruyama, Masashi Yagi, Yukihoro Yagi, Noboru Ishii, Osamu Sato, Mutsuhito Amemiya, Hitoshi Kimura y Akio Kimura. "Development of 500m HTS power cable in super-ACE project". Cryogenics 45, n.º 1 (enero de 2005): 11–15. http://dx.doi.org/10.1016/j.cryogenics.2004.08.003.

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Tarla, Mallikharjuna Rao, Srinivasa Rao Surapaneni y Konnanilkunnathil Thomas Varughese. "Modifications of Sub-components in Thermal Power Plants for Exergetic Efficiency". International Journal of Heat and Technology 39, n.º 2 (30 de abril de 2021): 573–80. http://dx.doi.org/10.18280/ijht.390227.

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Exergy analysis gaining importance as an engineering analysis tool for energy systems. This paper explores the possibility of decreasing exergy reduction in thermal power plant components like boiler, turbine and condenser and thus increasing exergetic efficiency of Power plants by redesigning the existing design of some important components like platen super heater, final super heater, re heater, condenser, so that resource sustainability improves. The method suggested for exergy destruction in condenser is by using Heat pipes and application of heat pipes for steam condensation has been validated with experimental results.
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Tesis sobre el tema "Super thermal power project"

1

Das, Anup Kumar. "Farakka super thermal power project : a sociological study". Thesis, University of North Bengal, 1992. http://hdl.handle.net/123456789/301.

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Liang, Kent Chin. "Design of DC Light Bulb for the DC House Project". DigitalCommons@CalPoly, 2012. https://digitalcommons.calpoly.edu/theses/742.

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This thesis focuses on the design and implementation of an economical and energy efficient DC Light Bulb for the DC House Project. For the DC lighting system, emphasis is on the DC-DC LED driver, dimmer circuit, LED lighting array, and physical packing design. In this paper, a DC Light Bulb is designed, simulated, and tested to operate at a wide input voltage ranging from 24 VDC to 72 VDC, to be fully dimmable using pulse-width modulation technique, and to produce lumination intensities equivalent to a standard 100 W A19 incandescent light bulb at one-tenth the total power consumption. The DC Light Bulb’s physical design also takes advantage of the same physical dimensions of a standard A19 incandescent light bulb using an E26 Edison screw base. Results from computer simulations and hardware tests demonstrated the feasibility of the proposed DC Light Bulb in terms of overall efficiency, line regulation, load regulation, power consumption, total lumens, luminous efficacy, and thermal profile.
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Cahuana, Galiano Vladimir. "Plan para la dirección del proyecto “Construcción de las Obras Civiles Central Térmica Recka II” aplicando las buenas prácticas de la Guía del PMBOK ® sexta edición". Master's thesis, Universidad Peruana de Ciencias Aplicadas (UPC), 2019. http://hdl.handle.net/10757/628197.

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Ingenieros Ejecutores (IE) es una empresa que busca diversificar y hacer sostenible su cartera de negocios con la incursión y sostenibilidad en el sector construcción de Obras Civiles para obras energéticas. Para este importante objetivo es necesario que los contratos ya ganados apliquen las mejores y más modernas prácticas de la industria, que reducirán los riesgos sobre los compromisos asumidos ante su Cliente. En este contexto, en el presente proyecto de investigación, se desarrolla el Plan para la dirección del proyecto “Construcción de las Obras Civiles Central Térmica Recka II” aplicando las buenas prácticas de la Guía del PMBOK ® sexta edición, en Chiclayo para las fases de iniciación y planificación del proyecto. El Plan para la dirección del proyecto se ha desarrollado en base a los planes subsidiarios que son: Plan para la Gestión del Alcance, Plan para la Gestión del Cronograma, Plan para la Gestión del Costo, Plan para la Gestión de los Recursos, Plan para la Gestión de las Comunicaciones, Plan para la Gestión de los Riesgos, Plan para la Gestión de los Interesados, así como otras herramientas como EDT / WBS, Cronograma y Presupuesto como parte de la aplicación de los procesos y herramientas. La aplicación de estos planes se espera que brinde como consecuencia el éxito del presente proyecto, el cual permitirá a IE acercarse a sus objetivos, alcanzando los beneficios esperados para los interesados.
Ingenieros Ejecutores (IE) is a company that seeks to diversify and make its business portfolio sustainable with the incursion and sustainability in the Civil Works construction sector for energy works. For this important objective it is necessary that the contracts already won apply the best and most modern practices of the industry, which will reduce the risks on the commitments assumed before your Client. In this context, in the present research project, the Plan for the direction of the “Construction of Civil Works Thermal Power Plant Recka II” project is developed, applying the good practices of the Guide of the PMBOK ® sixth edition, on Chiclayo, for the phases of initiation and Project planning. The Project Management Plan has been developed based on the subsidiary plans that are: Integration Management Plan, Scope Management Plan, Schedule Management Plan, Cost Management Plan, Plan for Resource Management, Communications Management Plan, Risk Management Plan, Stakeholder Management Plan, as well as other tools such as EDT / WBS, Schedule and Budget as part of the process application and tools The implementation of these plans is expected to result in the success of this project, which will allow IE to approach its objectives, achieving the expected benefits for those interested.
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4

Mathew, Mrudul. "Health and Safety Management Systems in Thermal Power Plants and Safety Inspection at L&T Constructions, Kochi Metro Rail Project". Thesis, 2017. http://ethesis.nitrkl.ac.in/8770/1/2017_MT_M_Mathew.pdf.

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Bhopal gas tragedy was an eyeopener in the field of safety management in Indian industries. Developed countries has done considerable amount of research on managing safety at organisations, such research practices has not been observed extensively in India. Indian industries were forced to adopt better safety management after globalisation and economic reforms to stay competitive in international markets. Safety management concepts are still confusing to the leaders of industries. So it is extremely important to study various factors that influence safety management, especially in high-risk industries like chemical/process industry. JSW Energy is one of the earliest private entrants into the power sector positioned strongly as a full-spectrum integrated power company with a presence across the power sector value chain. With 4531 MW operational capacity, it remains one of the most efficient Power Company in the country. The present study is conducted at JSW Energy, Ratnagiri is 4 x 300 MW thermal power plant. The objective of the study is to critically analyse the safety management system present in JSWEL, a coal based power generation project and give feedback to the management towards improving health and safety management system. During the study the important sections of safety management system were studied through visual inspection, interviewing key personnels and collecting information from documented data of the company. A detailed report on key areas of safety management was made and listed below. The report follows a detailed description of the different safety management systems of the JSW Ratnagiri thermal power plant. This can be useful for different industries who are striving to establish a proper safety management system.
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Libros sobre el tema "Super thermal power project"

1

Reddy, I. U. B. Demographic and socio-economic study of project affected families of Rihand Super Thermal Power Project. Bombay: Unit for Urban Studies, Tata Institute of Social Sciences, 1995.

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Parasuraman, S. Demographic and socio-economic survey of households affected by Korba Super Thermal Power Project, Bilaspur, M.P.: Summary of findings. New Delhi: National Thermal Power Corp., 1993.

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Reddy, I. U. B. Baseline socio-economic study of the proposed Mangalore Thermal Power Project. Bombay: Unit for Urban Studies, Tata Institute of Social Sciences, 1995.

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India. Central Board of Irrigation and Power. Research Scheme on Power., ed. Investigation on boiler tube failures in thermal power stations: Project report. New Delhi: Research Scheme on Power, Central Board of Irrigation and Power, 1988.

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Reddy, I. U. B. Socio-economic study of families affected by Singrauli Super Thermal Power Station. Bombay: Unit for Urban Studies, Tata Institute of Social Sciences, 1994.

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6

Garain, Swapan. A socioeconomic study of the families affected by Anta Gas Power Project of National Thermal Power Corporation. Bombay: Tata Institute of Social Sciences, 1995.

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7

Casal, Federico G. Solar Thermal Power Plants: Achievements and Lessons Learned Exemplified by the SSPS Project in Almeria/Spain. Berlin, Heidelberg: Springer Berlin Heidelberg, 1987.

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8

Sangyōshō, Japan Keizai. Power sector infrastructure assistance project for non-government development initiatives in developing countries--2004: The feasibility study on the Masinloc coal-fired thermal power plant expansion project in the Philippines : technical report. Japan]: Ministry of Economy, Trade, and Industry, 2005.

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Alexander, Dennis. 2 kWe Solar Dynamic Ground Test Demonstration Project. [Washington, DC]: National Aeronautics and Space Administration, 1997.

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Alexander, Dennis. 2 kWe Solar Dynamic Ground Test Demonstration Project. [Washington, DC]: National Aeronautics and Space Administration, 1997.

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Capítulos de libros sobre el tema "Super thermal power project"

1

Blake, F. A., D. N. Gorman y J. H. McDowell. "ARCO Central Receiver Solar Thermal Enhanced Oil Recovery Project". En Thermo-Mechanical Solar Power Plants, 365–83. Dordrecht: Springer Netherlands, 1985. http://dx.doi.org/10.1007/978-94-009-5402-1_55.

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Chakrabarti, Sudarsan, S. Padmapriya y Anirudh Sood. "Waste Water Management in Super Thermal Power Stations of NTPC". En Climate Impacts on Water Resources in India, 221–32. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-51427-3_19.

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Mukai, T., T. Horigome, N. Ikeda y T. Sakamoto. "A 1MWe Solar Thermal Electric Power Pilot Plant (Sunshine Project)". En Thermo-Mechanical Solar Power Plants, 52–61. Dordrecht: Springer Netherlands, 1985. http://dx.doi.org/10.1007/978-94-009-5402-1_9.

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Toggweiler, P. y R. Minder. "Comparison of Solar Thermal and Photovoltaic Electricity Generation Using Experimental Data from the Iea SSPS Project". En Thermo-Mechanical Solar Power Plants, 275–80. Dordrecht: Springer Netherlands, 1985. http://dx.doi.org/10.1007/978-94-009-5402-1_41.

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Wang, Yuxin. "Research on Financing Risk Management of State-owned 2x660MW thermal power Project". En Proceedings of the 2023 2nd International Conference on Economics, Smart Finance and Contemporary Trade (ESFCT 2023), 214–20. Dordrecht: Atlantis Press International BV, 2023. http://dx.doi.org/10.2991/978-94-6463-268-2_25.

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Guillén, J. "Analysis of the main foreseeable operation transients of a gas cooled solar power plant in a previous design stage of the project". En Solar Thermal Central Receiver Systems, 285–94. Berlin, Heidelberg: Springer Berlin Heidelberg, 1986. http://dx.doi.org/10.1007/978-3-642-82910-9_22.

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Panda, D., J. K. Mohanty, S. S. Das, P. Sarkar y P. K. Pradhan. "Detection of Inadequate Lubrication in ID Fan of a Super Thermal Power Plant Using Vibration Analysis". En Lecture Notes in Mechanical Engineering, 437–45. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-33-4795-3_40.

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Nguyen, Anh Thu, Phu Hai Huynh y Xuan Lam Vu. "The Establishment and Implementation of Scan to BIM Process in Thermal Power Station Project". En Lecture Notes in Civil Engineering, 682–89. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-7434-4_69.

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Jiang, Jing, Hua Li, ZhiWei Xie, YiWei Xue, Qi Luo y RunQi Liu. "Research on Investment Economics of Hydrogen Production Project in Thermal Power Plant Under Auxiliary Service Market". En Proceedings of the 2023 3rd International Conference on Enterprise Management and Economic Development (ICEMED 2023), 272–79. Dordrecht: Atlantis Press International BV, 2023. http://dx.doi.org/10.2991/978-94-6463-224-8_34.

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Mandal, Somnath, Subhasis Bhattacharya y Suman Paul. "Developmental Project (Bandel Thermal Power Station) and Its Impact on Groundwater: An Empirical Study from an Indian Perspective". En Environmental Management and Sustainability in India, 215–51. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-31399-8_11.

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Actas de conferencias sobre el tema "Super thermal power project"

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Sugimoto, Takao, Hiroshi Miyaji y Hikaru Sano. "Development of Japanese Super Marine Gas Turbine". En ASME Turbo Expo 2005: Power for Land, Sea, and Air. ASMEDC, 2005. http://dx.doi.org/10.1115/gt2005-68447.

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In 1997, five Japanese gas turbine manufacturers — Kawasaki Heavy Industries, Ishikawajima-Harima Heavy Industries, Daihatsu Diesel, Niigata engineering, and Yanmar — joined forces to establish the Technological Research Association for Super Marine Gas Turbine (SMGT) and embarked on development of a next generation gas turbine for the maritime industry. The goal of this project was to develop a marine gas turbine with high thermal efficiency (38–40%) and low NOx emissions of less than 1g/kWh. In 2003, this project was completed with success. SMGT is a two shaft, re-generative cycle gas turbine with an axial-radial compressor, multi-can dry low emission combustor, air cooled gas generator, power turbine, and a recuperator. Additionally, the new technologies incorporated into the SMGT deliver high performance and low emissions. Development of the commercial version, the SMGT2, followed, and the program came to a successful end in 2005. The three purposes of development were to improve the design of the power turbine and recuperator, to prove durability using endurance bench tests, and to apply a waste heat recovery system. Using a waste heat recovery boiler and an inlet cooler with an absorption chiller, energy efficiency improved by 50% and shaft output increased to 2,300kW, even when at high ambient temperatures. High energy efficiency reduces fuel consumption, thus reducing the cost of operating a vessel.
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Rashtrapal H, Chavhan y Sakhare Vishal V. "3D modeling of the fracture zones to decipher foundation level at Barethi Super Thermal Power Project, Madhya Pradesh, India". En Recent Advances in Rock Engineering (RARE 2016). Paris, France: Atlantis Press, 2016. http://dx.doi.org/10.2991/rare-16.2016.36.

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Ito, Eisaku, Ikuo Okada, Keizo Tsukagoshi, Akimasa Muyama y Junichiro Masada. "Development of Key Technologies for the Next Generation Gas Turbine". En ASME Turbo Expo 2007: Power for Land, Sea, and Air. ASMEDC, 2007. http://dx.doi.org/10.1115/gt2007-28211.

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In order to prevent global warming, Kyoto Protocol has come into effect in February 2005. It is necessary for Japan to reduce 6% of amount of CO2 emission from 2008 to 2012. In such an environment, improvement of the thermal efficiency of the gas turbine for GTCC is highly required. Mitsubishi Heavy Industries, Ltd. participates in the national project developing 1700 degC gas turbine. In this national project, selected component technologies are investigated in detail. Key technologies for 1700degC gas turbine are determined and under development such as: (1) Combustor with exhaust gas recirculation system; (2) Turbine cooling technology; (3) Super heat resistant material; (4) Thermal barrier coating; (5) High efficiency high loading turbine; (6) High pressure high efficiency compressor. Current status of the technology developments is reviewed.
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Delimont, Jacob, Steve White y Nathan Andrews. "Design of 1 MW Direct-Fired Combustor for an sCO2 Power Cycle". En ASME Turbo Expo 2021: Turbomachinery Technical Conference and Exposition. American Society of Mechanical Engineers, 2021. http://dx.doi.org/10.1115/gt2021-60294.

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Abstract Direct-fired super-critical carbon dioxide (sCO2) power cycles, are a potential method for efficiently capturing nearly all of the CO2 emissions from burning fossil fuels. Direct-fired sCO2 cycles require a very high degree of recuperation, which in turn means that the inlet temperature to the combustor is significantly higher than would typically be seen in a similar gas turbine combustors. Previous efforts have shown that combustor inlet temperatures of around 700 °C are to be expected for a cycle with around 1200 °C combustor exit temperatures [1]. This high inlet temperature means that bypass gasses are extremely hot, which poses some difficulties for the design of the combustion system, especially thermal management of the combustor liner and injectors in the 200 bar sCO2 environment. The project team led by Southwest Research Institute (SwRI) is in the process of building a 1 MW scale direct-fired combustor. This paper will detail some of the design challenges and obstacles associated with designing a direct-fired sCO2 combustor. These obstacles include thermal management of fuel and oxygen streams, oxygen safety, and combustor cooling. This paper will focus on many of the design questions necessary for the design of a direct-fired sCO2 combustor. This work presents computational modeling details of the actual 1 MW geometry currently being built.
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5

White, Steve, Grey Berry y Brian Connolly. "Design of a 1MW Direct-Fired Oxy Combustor for sCO2 Power Cycles". En ASME Turbo Expo 2022: Turbomachinery Technical Conference and Exposition. American Society of Mechanical Engineers, 2022. http://dx.doi.org/10.1115/gt2022-81747.

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Abstract Direct-fired super-critical carbon dioxide (sCO2) power cycles are a potential method for efficiently capturing nearly all of the CO2 emissions from burning fossil fuels. Direct-fired sCO2 cycles require a very high degree of recuperation, which in turn means that the inlet temperature to the combustor is significantly higher than would typically be seen in a similar gas turbine combustor. Previous efforts have shown that combustor inlet temperatures of around 700°C at 200 bar are to be expected for a cycle with around 1200°C combustor exit temperatures. The project team led by Southwest Research Institute is in the process of building and commissioning a 1MW scale direct-fired sCO2 oxy combustor. The test rig at SwRI uses laser ignition and advanced optical access to monitor combustion and characterize behavior. This paper will detail some of the challenges associated with the design and fabrication of the combustor and sCO2 power loop. These obstacles include thermal management, water generation, and constituent monitoring. The first ever unsteady simulations of this type of combustor were conducted as part of the design process. A presentation of the test rig layout, design considerations, and integration challenges will be covered.
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6

Suga, Takeo y Takeo Takahashi. "Development of Steam Turbine for A-USC Plant". En AM-EPRI 2019, editado por J. Shingledecker y M. Takeyama. ASM International, 2019. http://dx.doi.org/10.31399/asm.cp.am-epri-2019p1204.

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Abstract Enhancement of the steam conditions is one of the most effective measures to achieve the goal of higher thermal efficiency. 700°C class A-USC (Advanced Ultra Super Critical Steam Conditions) power plant is one of the remarkable technologies to achieve the goal and reduce CO2 emissions from fossil fuel power plants. Toshiba has been working on the A-USC development project with subsidy from METI (Ministry of Economy, Trade and Industry) and NEDO (New Energy and Industrial Technology Development Organization). In this project, A-USC power plants with steam parameters of 35MPa 700/720/720°C were considered. To date, various materials have been developed and tested to verify their characteristics for use in A-USC power plants. And some of these materials are being investigated as to their suitability for use in long term. Together with members of the project, we carried out the boiler component test using a commercially-operating boiler. We manufactured a small-scale turbine casing made of nickel-based alloy, and supplied it for the test. In addition, we manufactured a turbine rotor for turbine rotation tests, and carried out the test at 700°C and rotating speed of 3,600rpm conditions. In this paper, we show the results of the A-USC steam turbine development obtained by the project.
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Fukuda, Masafumi, Yutaka Yagi, Hiroyuki Fukutomi, Satoshi Nishinoiri, Katsura Sato, Toshiaki Nishii, Kojiro Nishimaki et al. "700℃ A-USC Technology Development in Japan". En AM-EPRI 2019, editado por J. Shingledecker y M. Takeyama. ASM International, 2019. http://dx.doi.org/10.31399/asm.cp.am-epri-2019p1487.

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Abstract CO2 emission reduction from coal power plants is still a serious issue to mitigate the impact of global warming and resulting climate change, though renewables are growing today. As one of the solutions, we developed A-USC (Advanced Ultra Super Critical steam condition) technology to raise the thermal efficiency of coal power plants by using high steam temperatures of up to 700℃ between 2008 and 2017 with the support of METI (Ministry of Economy, Trade and Industry) and NEDO (New Energy and Industrial Technology Development Organization). The temperature is 100℃ higher than that of the current USC technology. Materials and manufacturing technology for boilers, turbines and valves were developed. Boiler components, such as super heaters, a thick wall pipe, valves, and a turbine casing were successfully tested in a 700℃-boiler component test facility. Turbine rotors were tested successfully, as well, in a turbine rotating test facility under 700℃ and at actual speed. The tested components were removed from the facilities and inspected. In 2017, following the component tests, we started a new project to develop the maintenance technology of the A-USC power plants with the support of NEDO. A pressurized thick wall pipe is being tested in a 700℃ furnace to check the material degradation of an actual sized component.
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Kohei, Ajima, Shigemi Naganawa y Elvar Karl Bjarkason. "Application of Insulated Drill Pipe to Supercritical/Super-Hot Geothermal Well Drilling". En ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2023. http://dx.doi.org/10.1115/omae2023-104713.

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Abstract In Japan, a research and development project is ongoing that is aimed at developing supercritical geothermal exploration and power generation methods. The extremely high formation temperatures encountered during supercritical geothermal drilling presents a challenge for the durability of downhole tools. Thus, it is essential to design an effective method of downhole cooling during drilling. To protect commonly used downhole tools from thermal damage, the objective is to reduce the downhole temperature in supercritical geothermal wells to below 175°C, which coincides with the lowest heat resistant temperature of most downhole equipment. In this study, the authors carried out numerical simulations focusing on the effectiveness of using insulated drill pipes to reduce downhole fluid circulation temperatures during drilling through formations with temperatures high enough for a supercritical reservoir. It was found that use of insulated drill pipes effectively controlled the downhole temperature by reducing the heat influx conducted from the formation. Considering the additional cost of using insulated drill pipes, we also looked at cases where the insulated drill pipes were only applied along two-thirds of the entire drillstring. Considering the flow rate of the circulating fluid and the inflow temperature, the temperature simulation was performed to keep the downhole temperature below 175°C. We also considered the additional pressure loss that could be expected from using the narrower insulated drill pipe.
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Tabuchi, Masaaki, Hiromichi Hongo y Fujio Abe. "Creep Strength of Dissimilar Weld Using High B-9Cr Steel for A-USC Boiler". En ASME 2013 Pressure Vessels and Piping Conference. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/pvp2013-97659.

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The research project aiming to commercialize 700°C class pulverized coal power system; advanced ultra-super critical (A-USC) pressure power generation has been conducted in Japan from 2008. In A-USC boilers, Ni base or Ni-Fe base alloys are used for high temperature parts at 650–700°C and advanced high Cr ferritic steels are planning to be used at the temperatures lower than 650°C. Because the high B-9Cr steel developed in National Institute for Materials Science (NIMS) has improved creep strength in weldments, it is one of the candidate materials for A-USC boilers. In the present paper, the creep tests of the dissimilar welds between high B-9Cr steels and Ni base alloys were conducted. In the heat affected zone (HAZ) of the high B-9Cr steels, fine-grained microstructures were not formed and grain size of the base metal was retained. Free boron on the grain boundaries is considered to affect the mechanisms of the α-γ transformation during weld thermal cycle. Consequently, the creep rupture lives of the dissimilar welds between high B-9Cr steels and Ni base alloys were 5–10 times longer than those of the conventional 9Cr steel welds at 650°C.
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Harris, James G., Ali Shaban, Dale Dolan, Tyler Sheffield y Eran Tal. "Cal Poly Sustainable power for Electrical Resources (SuPER) project". En 2011 North American Power Symposium (NAPS 2011). IEEE, 2011. http://dx.doi.org/10.1109/naps.2011.6025109.

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Informes sobre el tema "Super thermal power project"

1

Turner, E. Bruce, Tim Brown y Ed Mardiat. Thermal Energy Corporation Combined Heat and Power Project. Office of Scientific and Technical Information (OSTI), diciembre de 2011. http://dx.doi.org/10.2172/1048095.

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Wendt, Daniel S., Hai Huang, Guangdong Zhu, Prashant Sharan, Joshua McTigue, Kevin Kitz, Sidney Green, John McLennan y Ghanashyam Hari Neupane. Flexible Geothermal Power Generation utilizing Geologic Thermal Energy Storage: Final Seedling Project Report. Office of Scientific and Technical Information (OSTI), mayo de 2019. http://dx.doi.org/10.2172/1524048.

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Gonzalez Diez, Verónica M. Ex Post Evaluation of Mitigation Measures in the Samalayuca II and Monterrey III Thermal Power Generation Projects. Inter-American Development Bank, marzo de 2011. http://dx.doi.org/10.18235/0010446.

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This evaluation conducts an ex post review of the mitigation measures in the Samalayuca II and Monterrey III thermal power generation projects in Mexico. In general, it can be concluded that both thermoelectric power plants took into account most of the environmental impacts and mitigation measures recommended by the literature. A more active role in project design, supervision, and monitoring by the IDB would increase the technical value added. Social action plans need to be considered, as well as local community participation during project design and monitoring. Targeted studies to solve environmental problems can reduce uncertainty when choosing alternatives for managing associated risks. The participation of multidisciplinary teams and local specialists in the drafting of evaluation and monitoring reports would strengthen the technical aspects of the reports.
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Hertel, E. S. Jr y E. E. Ryder. Areal power density: A preliminary examination of underground heat transfer in a potential Yucca Mountain repository and recommendations for thermal design approaches; Yucca Mountain Site Characterization Project. Office of Scientific and Technical Information (OSTI), noviembre de 1991. http://dx.doi.org/10.2172/138274.

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Hedrick, Jacob y Timothy Jacobs. PR-457-14201-R02 Variable NG Composition Effects in LB 2S Compressor Engines Phase I Engine Response. Chantilly, Virginia: Pipeline Research Council International, Inc. (PRCI), agosto de 2015. http://dx.doi.org/10.55274/r0010997.

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This is the final report summarizing work completed during the first phase of the PRCI study on large bore two stroke lean burn integral compressor engine response to variable natural gas compositions for the purposes of engine control development. Accomplished tasks include the completion of a detailed literature review covering the research topic, a parametric study of laminar flame speeds and ignition delays for binary methane and ethane mixtures up to 30%, and a GT-Power engine model of the Colorado State GMV-4 research engine with associated validation data from CSU�s variable ethane effects study. The chemistry of the combustion reaction is crucial to accurate modeling; laminar flame speeds and ignition delays as function of composition were determined from the solutions to published chemical kinetics mechanisms GRI-Mech3.0 and Saudi Aramco Mech1.3, respectively. The Wiebe coefficients correlated to variations in ethane composition and spark timing were regressed from the crank angle resolved heat release rates. The Wiebe coefficients are the most significant achievement of this phase of the project, since they quantify the heat release as a function of composition. At this time, the Wiebe parameters only reflect the relative changes in the model since certain aspect of the models geometry are pending resolution. Future phases of the project could use the developed GT-Power model and Wiebe coefficients for development of control schemes that maintain emissions, speed and torque limits, and maximize thermal efficiency during a variable fuel composition event.
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Vega-Araújo, José, Juliana Peña Niño, Elisa Arond y Fernando Patzy. Navigating a just energy transition from coal in the Colombian Caribbean. Stockholm Environment Institute, diciembre de 2023. http://dx.doi.org/10.51414/sei2023.063.

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The findings reported in this paper provide insights into the power dynamics and distributional politics that shape resistance to phasing out coal and to opportunities for change, as part of a broader project comparing these lessons and experiences in Colombia, South Africa and Indonesia, aiming to understand challenges to a just energy transition in coal-producing countries in the Global South. The current Colombian government has helped centre the concept of a just energy transition in public debate, encompassing a broad range of questions and concerns. National, regional and local discussions have different frameworks and visions for a future beyond fossil fuels, particularly regarding coal, which is a major export commodity but not a major fuel for domestic use in Colombia. For thermal coal–producing regions in Colombia, this debate touches on the challenges of both the legacy of extractive activities and the repercussions of losing a significant industrial sector, affecting local and regional economies and communities. Drawing on a series of workshops, a literature review, and interviews around transitions from coal in the Colombian departments of Cesar and La Guajira, researchers identified different visions of a just energy transition put forward at the national and regional levels, as well as some of the interests and strategies leveraged by different actors and groups in pushing certain visions of such a transition. In addition to presenting these results, the authors of this report provide insights into the power dynamics that shape resistance to phasing out coal and opportunities for transitions to more sustainable futures, with a strong emphasis on the efforts of civil society to create and achieve their visions of transition.
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