Relevant bibliographies by topics / Japon. Ministry of International Trade and Industry

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Academic literature on the topic 'Japon. Ministry of International Trade and Industry'

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Published: 4 June 2021
Last updated: 4 February 2022

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Journal articles on the topic "Japon. Ministry of International Trade and Industry"

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Morita, Ichiro, Akio Sasagawa, Kenji Oka, and Garrey Maxwell. "MARINE ENVIRONMENTAL GEOGRAPHIC INFORMATION SYSTEM (MEGIS) DEVELOPMENT FOR JAPAN." International Oil Spill Conference Proceedings 1997, no. 1 (April 1, 1997): 485–91. http://dx.doi.org/10.7901/2169-3358-1997-1-485.

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ABSTRACT A response management system for accidents, such as oil well blowouts and oil spills at sea, is being developed by the Safety and Environment Center for Petroleum Development (SEC) under the supervision of the Ministry of International Trade and Industry (MITI) of Japan. The 5-year program, which is designed to minimize environmental damage in the event of an oil spill, commenced in 1992. The system, known as the Marine Environmental Geographic Information System (MEGIS), consists of five subsystems: (1) detection and monitoring, (2) oil and pollution spill trajectory prediction by computer simulation, (3) contingency planning for response and cleanup operations, (4) a communication and information network of all responsible agencies and participants, and (5) a geographic information system.
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Daza, Carolina, and Manami Suzuki. "A Review of the Reading Section of the TOEIC." TESL Canada Journal 22, no. 1 (October 1, 2004): 16. http://dx.doi.org/10.18806/tesl.v22i1.163.

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In 1979, the Educational Testing Service (ETS) developed the TOEIC (Test of English for International Communication), an English proficiency test for people working in international environments, based on a request from the Japanese Ministry of International Trade and Industry. The Chauncey Group International, a subsidiary of ETS, currently develops and publishes the test. Over two million people per year take the TOEIC (www.toeic.com). According to the TOEIC Report on Test-Takers Worldwide, 1997-98, 63% of the TOEIC results were used in Japan, 29% in Korea, and 8% in other countries. Most reviews of the TOEIC have been descriptions of the test (Gilfert, 1996; Perkins, 1987). The TOEIC comprises the listening and reading section. Buck (2001) reviews only the listening section. For the reading section of the TOEIC we could find only one critical review (Richards, 1992) published over the two decades since the test was developed. Therefore, our purpose in this article is to review critically the reading section based on recent studies of language assessment, particularly for construct validity and content validity, which are considered by language testing researchers (Backman, 1990; Cumming, 1996) as fundamental for validation of language tests.
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Miyazoe, Nobutaka, and Yoshihiro Hashizume. "MAJOR OIL SPILL RESPONSE PROGRAM OF THE PETROLEUM ASSOCIATION OF JAPAN." International Oil Spill Conference Proceedings 1995, no. 1 (February 1, 1995): 751–53. http://dx.doi.org/10.7901/2169-3358-1995-1-751.

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ABSTRACT The Petroleum Association of Japan (PAJ) has been implementing a major oil spill response program since 1991, supported and subsidized by the Ministry of International Trade and Industry (MITI), from the viewpoint of contributing to a secure, stable oil supply for Japan. PAJ's program consists of the stockpiling and lending of oil spill response equipment, and research and development related to oil spills and response techniques. In the event of major oil spill incidents, PAJ will lend the equipment stockpiled at the base, free of charge, to government agencies or parties concerned upon their request, in order to minimize damages. Those parties who borrow the equipment bear the expense of transportation, deployment, cleanup, and repair. PAJ's purpose is to support initial response operations by supplying additional equipment. To stockpile and to release it, PAJ so far has four domestic and three overseas bases, with domestic bases in Chiba, Mizushima, Yokkaichi, and Niigata, and overseas bases in Julong East, Singapore; Port-Klang, Malaysia; and Al-Khafji, Saudi Arabia. The equipment installed includes oil skimmers (36 units), foamed flotation booms (16,000 m), inflatable booms (7,000 m) and portable tanks (56 units).
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Itoh, T., and H. Kimura. "Status of the Automotive Ceramic Gas Turbine Development Program." Journal of Engineering for Gas Turbines and Power 115, no. 1 (January 1, 1993): 42–50. http://dx.doi.org/10.1115/1.2906684.

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A seven-year program, designated “Research and Development of Automotive CGT,” commenced in June 1990 with the object of demonstrating the potential advantages of ceramic gas turbine engines for automotive use. This program has been conducted by the Petroleum Energy Center (PEC) with the support of the Ministry of International Trade and Industry. The engine demonstration project in this program is being handled by a team from Japan Automobile Research Institute, Inc. (JARI). This paper describes the activities of the first year of the seven-year program, and includes the project goals and objectives, the program schedule, and the first-stage design of an experimental automotive ceramic gas turbine (CGT) engine and its components. The basic engine is a 100 kW, single-shaft gas turbine engine having a turbine inlet temperature of 1350°C and a rotor speed of 110,000 rpm. The primary engine components including the turbine hot flow path components have been designed using monolithic ceramics and are scheduled to be produced during the second year of the program.
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Ibata-Arens, Kathryn, and Hiromichi Obayashi. "Escaping the Japanese Pyramid: The Association of Small and Medium Sized Enterprise Entrepreneurs (SME Doyukai), 1947–1999." Enterprise & Society 7, no. 1 (March 2006): 128–63. http://dx.doi.org/10.1017/s1467222700003761.

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In Japanese society the pinnacle of economic and political power resides in Tokyo conglomerates and elite ministries: the Ministry of International Trade and Industry (MITI) and the Ministry of Finance. Until now, the story of this power arrangement has been told from the perspective of national bureaucrats and big business executives. The image projected to the outside world has been of cooperative, trust-based relational contracting with big business at the top “taking care” of its suppliers and subsidiaries below. The story from the bottom, however, is one of technology expropriation (of patentable technology) and monopsony squeeze (unilateral cost-down demands, for example). Firms unwilling to toe the line have been wholly excluded from access to the benefits reserved for those at the top of the pyramid, where one finds lucrative main bank financing, government support, and copious technological information.This article offers a historical narrative of the political struggle by independent-minded entrepreneurs in postwar Japan. Central to the struggle has been the challenge of building broad-based coalitions to avoid becoming embedded in these hierarchies while at the same time trying to obtain alternative sources of finance and technological know-how. The most successful example of such efforts is the Association of Small and Medium Size Enterprise Entrepreneurs (SME Doyukai). The SME Doyukai has somehow managed to remain completely independent from the state, while most other small business associations have not. This independence has not been free, and the association has gone through a number of institutional dilemmas as a result. We analyze these dilemmas over time and offer comparative lessons.
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Encarnation, Dennis J., and Mark Mason. "Neither MITI nor America: the political economy of capital liberalization in Japan." International Organization 44, no. 1 (1990): 25–54. http://dx.doi.org/10.1017/s002081830000463x.

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Compared with Japan, no other industrialized country has so adamantly denied foreign investors direct access to its domestic markets. Japan continued to deny such market access until domestic constituencies finally championed foreign demands and successfully pressured a reluctant state for concessions. The initiative for these concessions came neither from Japan's principal government negotiators in the Ministry of International Trade and Industry (MITI) nor from public policymakers in America. Rather, it came from American and other multinational corporations (MNCs) seeking to exploit imperfect markets for the technology and related assets which they alone controlled and which a few Japanese oligopolists demanded. These local oligopolists served as manipulative intermediaries between MNCs and the nationstate and in that position determined both the timing and the substance of their country's long march toward capital liberalization. Between the legislation of capital controls in 1950 and the de jure elimination of those controls in 1980, what began as an extension of limited concessions to individual MNCs, eventually aided by small regulatory loopholes, gradually encompassed all foreigners supplying broad product groups. During the intervening thirty years, the MNCs examined in this article— including Coca-Cola, IBM, Texas Instruments, and the “big three” U.S. automakers —finally gained limited access to the Japanese market. For them, the formal liberalizations of the late 1960s and early 1970s proved significant, but not always decisive, as Japanese oligopolists moved both to replace public regulations with private restrictions and to mesh their ongoing political influence domestically with their emerging economic power internationally. Thus, de facto liberalization proceeded slowly and unevenly, at least through 1980, and foreign direct investment in Japan continued to languish. What capital liberalization did occur had little to do with the pressures exerted on MITI and the Japanese state by the U.S. government and the international organizations that America then controlled. Rather, American diplomacy proved successful in forcing concessions from Japan only when it was backed up both by the economic power of American MNCs and by the active support of Japanese business.
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Mizugaki, Yoshio. "Special Issue on Intelligent Manufacturing Systems." Journal of Robotics and Mechatronics 6, no. 6 (December 20, 1994): 441. http://dx.doi.org/10.20965/jrm.1994.p0441.

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Production engineering and manufacturing industries face difficulties in developing a new paradigm to cope with the post mass-production era. Consumers' preferences change very quickly and vary over a wide range of taste. A product's life cycle becomes shorter than shorter. Thus, rapid prototyping techniques have been requested, and some new concepts on manufacturing have been presented including Flexible Manufacturing System, Factory (or Flexible) Automation, Computer Integrated Manufacturing System, and Concurrent Engineering. After the termination of the cold war, many regional economies combined through international trade and dynamically evolved into global economies. Such change had significant effects on manufacturing industries and consequently on production engineering. As a new paradigm in the post mass-production era, the creation of manufacturing culture has been advocated by Prof. Hiroyuki Yoshikawa, President of University of Tokyo. It contains not only the movement towards standardization of conventional manufacturing knowledge but also the development of a global manufacturing system with use of computerization. At his advocation, the international research project of Intelligent Manufacturing Systems (IMS) was initiated. This bimonthly journal is a special issue on the IMS project and similar topics widely covering intelligent manufacturing systems. The former part of the contents is the description of the IMS project. It consists of the commentary articles quoted from the IMS news and the latest reports of IMS international test cases. The Japan IMS center publishes the IMS news and strongly supports the IMS project itself with collaboration of Ministry of International Trade and Industry of Japan (MITI). The authors of these reports are primarily enrolled in the actual responsibility to promote their projects and newly write the articles for this journal. I would like to thank the IMS center and each author for their contributions to this special issue on the IMS project. The latter part of the contents consists of the articles on the STandard for the Exchange of Product model data (STEP) and some technical papers on manufacturing. A conference report on the 2nd Japan-France Congress on Mechatronics is also provided in this issue. I would like to thank all contributors for their cooperation in creating this special issue. As can be easily seen, this issue focused on the forthcoming advancement on production engineering and manufacturing through the movement of Intelligent Manufacturing Systems. As the editor of this special issue on Intelligent Manufacturing Systems, I hope that the readers pay attention to this new movement and become involved in the near future.
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S. H., Hengky. "Image Analysis: Textile Industry in Indonesia." World Journal of Business and Management 1, no. 1 (June 25, 2015): 42. http://dx.doi.org/10.5296/wjbm.v1i1.7883.

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<p>In 2014, the Indonesian textile industry exports 36% of their woven fabric's amount USD 4.1 to the United States, 16% to the European Union and Japan, and 5% to the Association of Southeast Asian Nations (ASEAN). This research was conducted from August 2014 to April 2015 in Indonesia. The questionnaires were distributed to 350 respondents, by using a stratified sampling, purposively, and triangulation techniques. The questionnaires were distributed to an international and national distributors, textile company staffs, textile agency, textile shopkeepers, tailor, staff of the garment, and the staffs of the Trade Minister of Indonesian. The image analysis shows that the woven fabrics of Indonesia are competitive. In terms of an image analysis, this study found three gaps of the image’s expectation and performance. It is indicated that the plan of the Trade Minister of Indonesia would be done, as long as the plan is followed by increasing the production and finishing capacity of the textile industry, which were imported from several countries, such as Germany, Italy, and ASEAN country. They need the new technology of textile machine on getting a better quality and increasing the production capacity of the woven fabrics.</p>
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Watanabe, T. "Ministry of International Trade and Industry Consumer Goods Industries Bureau Textile Products Division." Sen'i Kikai Gakkaishi (Journal of the Textile Machinery Society of Japan) 47, no. 2 (1994): P100—P107. http://dx.doi.org/10.4188/transjtmsj.47.p100.

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Tunkel, Jay, Philip H. Howard, Robert S. Boethling, William Stiteler, and Helene Loonen. "Predicting ready biodegradability in the Japanese ministry of international trade and industry test." Environmental Toxicology and Chemistry 19, no. 10 (October 2000): 2478–85. http://dx.doi.org/10.1002/etc.5620191013.

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Books on the topic "Japon. Ministry of International Trade and Industry"

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Evers, Rolf. Forderung der Informationstechnologie in Japan: Massnahmen des Ministry of International Trade and Industry (MITI). Bonn: Gesellschaft fur Mathematik und Datenverarbeitung, 1985.

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Divided sun: MITI and the breakdown of Japanese high-tech industrial policy, 1975-1993. Stanford, Calif: Stanford University Press, 1995.

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Callon, Scott. Divided sun: MITI and the breakdown of Japanese high-tech industrial policy, 1975-1993. Stanford, Calif: Stanford University Press, 1995.

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Between MITI and the market: Japanese industrial policy for high technology. Stanford, Calif: Stanford University Press, 1989.

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Callon, Scott. Divided Sun: MITI and the Breakdown of Japanese High-Tech Industrial Policy, 1975-1993 (Studies in International Policy). Stanford University Press, 1997.

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Kemp, R. T. The Finnish Guarantee Board: An international evaluation (Publications / Ministry of Trade and Industry). Ministry of Trade and Industry, 1995.

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A, Raza Hilal, Sheikh Arshad M, Pakistan. Ministry of Petroleum & Natural Resources., United States. Agency for International Development., and International Symposium on "Petroleum for the Future" (1988 : Islāmābād, Pakistan), eds. Petroleum for the future: Proceedings of an international symposium organized by the Government of Pakistan, Ministry of Petroleum and Natural Resources, at Islamabad, Pakistan, January 28-30, 1988. Islamabad, Pakistan: Hydrocarbon Development Institute of Pakistan, 1988.

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Economist Intelligence Unit (Great Britain), ed. International price comparisons: A survey of branded consumer goods in France, Germany, Sweden, the UK and the US : a report for the UK Department of Trade and Industry and the Swedish Ministry for Foreign Affairs. London: Economist Intelligence Unit, 2001.

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Book chapters on the topic "Japon. Ministry of International Trade and Industry"

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"A changing Ministry of International Trade and Industry." In Japanese Governance, 112–28. Routledge, 2003. http://dx.doi.org/10.4324/9780203222256-15.

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Honjo, M., A. Akaoka, A. Nakayama, H. Shirrada, I. Mita, K. Kawamura, and Y. Furutani. "CONSTRUCTION OF SECRETION VECTOR AND SECRETION OF hIFN-β11All of this work was carried out under national project supported by the Ministry of International Traae and Industry, Japan." In Bacillus Molecular Genetics and Biotechnology Applications, 89–100. Elsevier, 1986. http://dx.doi.org/10.1016/b978-0-12-274155-5.50013-1.

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Conference papers on the topic "Japon. Ministry of International Trade and Industry"

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Murayama, Takumi, Kunihiro Nagata, Hiroyuki Abe, and Hisao Ogiyama. "Current Status of 300 kW Industrial Gas Turbine R&D in Japan." In ASME 1995 International Gas Turbine and Aeroengine Congress and Exposition. American Society of Mechanical Engineers, 1995. http://dx.doi.org/10.1115/95-gt-445.

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The Ceramic Gas Turbine (CGT) has great advantages in terms of energy efficiency, environmental protection, and fuel-diversification. In Japan, R&D on the 300 kW CGT has been carried out as one of the national projects entitled “New Sunshine Program”, which are promoted by the New Sunshine Project Promotion Headquarters, Agency of Industrial Science and Technology (AIST), Ministry of International Trade and Industry (MITI). R&D on the CGT has progressed faithfully and now the operation of prototype CGTs (Turbine Inlet Temperature (TIT) of 1200 °C) is focused. In the paper, the overall status of the R&D activities on the 300 kW CGT will be reviewed with the test results to-date, problems awaiting solution, and perspective for the prototype and pilot CGTs.
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Saito, Itaru, and Takashi Shimakawa. "Outline of the JSME (Japan Society of Mechanical Engineers) Rules on Design and Construction for Nuclear Power Plants." In ASME/JSME 2004 Pressure Vessels and Piping Conference. ASMEDC, 2004. http://dx.doi.org/10.1115/pvp2004-2690.

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The JSME (Japan Society of Mechanical Engineers) published the rules on design and construction for nuclear power plants in 2001. The basic concept of this rule originates in the ASME Boiler & Pressure Vessel Code Section III, however, some articles in the JSME rules are modified from the ASME rules depending on the Japanese own investigations and thoughts. This paper presents the outline of the JSME rules and discussed the comparison between the JSME rules and the ASME rules. In Japan, rules for the design and construction for nuclear power plants had been used in the Japanese regulatory standards known as Notification 501 of MITI (Ministry of international Trade and Industry) for over 30 years. And the JSME code is also based on the Notification 501. Recently the Japanese regulatory authority had announced new policy to adapt non-government voluntary rules for the design and construction taking advantage of reflecting new technology and the code revision quickly. And, in November 2003, the new JSME rules are endorsed by the Japanese regulatory authorities as alternate rules of the Notification 501.
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Toyohara, Tetsuhiko, Nobuyuki Okamoto, Takahiro Kawai, Takayoshi Kodama, and Hiroshi Shibasaki. "Environmental Research for Assessing the Impacts of Mining Seafloor Massive Sulfides in Japan." In ASME 2011 30th International Conference on Ocean, Offshore and Arctic Engineering. ASMEDC, 2011. http://dx.doi.org/10.1115/omae2011-49906.

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In Japan, the Ministry of Economy, Trade and Industry (METI) commenced a research and development (R&D) project on seafloor massive sulfide (SMS) deposits in Japan’s exclusive economic zone (EEZ) in the 2008 fiscal year. The project defines the plan for the commercialization of SMS within 10 years. Japan Oil, Gas and Metals National Corporation (JOGMEC) conducted the research under contract to METI. SMS deposits are widely distributed in the sea area surrounding Japan and are expected to become domestic metal resources. Since the SMS fields include hydrothermal ecosystems, which often host dense endemic animal communities, an adequate environmental impact assessment (EIA) and a conservation strategy to protect biodiversity are required for sustainable development. We outline an environmental framework that is intended to contribute to a global standard for assessing the environmental impacts of SMS exploration and mining.
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Yasunaga, Yuko, Masayoshi Watanabe, and Motoki Korenaga. "Outline of the Strategic Technology Roadmap of METI (Ministry of Trade and Industry of JAPAN) and Trial Approach for Technology Convergence with the Methodology of Technology Roadmapping." In PICMET '07 - 2007 Portland International Conference on Management of Engineering & Technology. IEEE, 2007. http://dx.doi.org/10.1109/picmet.2007.4349484.

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Itoh, Takane, and Hidetomo Kimura. "Status of the Automotive Ceramic Gas Turbine Development Program." In ASME 1992 International Gas Turbine and Aeroengine Congress and Exposition. American Society of Mechanical Engineers, 1992. http://dx.doi.org/10.1115/92-gt-002.

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The seven-year program, designated “Research and Development of Automotive CGT” commenced in June 1990 with the object of demonstrating the potential advantages of ceramic gas turbine engines for automotive use. This program has been being conducted by the Petroleum Energy Center (PEC) with the support of the Ministry of International Trade and Industry. The engine demonstration project in this program is being handled by a team from the Japan Automobile Research Institute, Inc., (JARi). This paper describes the activities of the first year of the seven-year program, and includes the project goals and objectives, the program schedule, and the first-stage design of an experimental automotive ceramic gas turbine (CGT) engine and its components. The basic engine is a 100kW, single-shaft gas turbine engine having a turbine inlet temperature of 1350°C and a rotor speed of 110,000 rpm. The primary engine components including the turbine hot flow path components have been designed using monolithic ceramics and are scheduled to be produced during the second year of the program.
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Murayama, Takuki, Kunihiro Nagata, Masanobu Taki, and Hisao Ogiyama. "Current Status of 300 kW Class Industrial Ceramic Gas Turbine R&D in Japan." In ASME 1994 International Gas Turbine and Aeroengine Congress and Exposition. American Society of Mechanical Engineers, 1994. http://dx.doi.org/10.1115/94-gt-482.

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Advanced technologies in Ceramics Gas Turbine (CGT) are expected to make a great progress in energy conservation, anti-pollution, and fuel-diversification. In Japan, R&D’s in industrial usage 300 kW class CGT have been advanced under a national project entitled “New Sunshine Program”, under the subsidy of Agency of Industrial Science and Technology (AIST), Ministry of International Trade and Industry (MITI) through the period of FY1988–1996. In this project, three different type prototypes of the CGT are under development through New Energy and Industrial Technology Development Organization (NEDO). Over the last six years, the basic designs have been completed and the ceramic elements such as turbine rotors, scrolls, and combustors were successfully fabricated. To check up the whole progress of the project, an interim evaluation is scheduled by the end of FY1993. Toward this evaluation, each prototype has been programmed to demonstrate 1200°C of Turbine Inlet Temperature (TIT) and prove more than 30% of thermal efficiency. (The ultimate target in the project is 42% of thermal efficiency at 1350°C TIT.) They would also show enough environmental adaptability. In this paper, overall status of the development in the 300kW CGT project is reviewed and the items in the interim evaluation are explained.
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Tsuruzono, Sazo, Makoto Yoshida, Toshifumi Kubo, Takashi Ono, and Takero Fukudome. "Development and Evaluation of Ceramic Components for 8000-kW Class Hybrid Gas Turbine." In ASME Turbo Expo 2001: Power for Land, Sea, and Air. American Society of Mechanical Engineers, 2001. http://dx.doi.org/10.1115/2001-gt-0516.

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An 8000 kW class hybrid gas turbine (HGT) project, administered by the New Energy and Industrial Technology Development Organization (NEDO) and sponsored by the Ministry of International Trade and Industry (MITI), has been started in July 1999 in Japan[1]. The target of this project is improvement in thermal efficiency and output power by using ceramic components, and earlier commercialization of the gas turbine system. Ceramic components are used for stationary parts subjected to high temperature, such as combustor liners, transition ducts, and first stage turbine nozzles. The gas turbine development was conducted in cooperation with Kawasaki Heavy Industries, Ltd. (KHI). Kyocera started a study on fabricating the ceramic HGT components after evaluating their shape, placement, and fabrication methods. For these ceramic components, we are using the SN282 silicon nitride material developed and used for ceramic gas turbine components in the previous ceramic gas turbine project (300kW CGT)[2-4]. We have started to accumulate the strength evaluation data, using test bars cut from the aforementioned components, and begun long term tensile creep testing to confirm the reliability of the ceramic components.
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Kobayashi, Hirotake, Tetsuo Tatsumi, Takashi Nakashima, Isashi Takehara, and Yoshihiro Ichikawa. "Current Status of Ceramic Gas Turbine (CGT302)." In ASME 1998 International Gas Turbine and Aeroengine Congress and Exhibition. American Society of Mechanical Engineers, 1998. http://dx.doi.org/10.1115/98-gt-501.

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In Japan, from the point of view of energy saving and environmental protection, a 300kW Ceramic Gas Turbine (CGT) Research and Development program started in 1988 and is still continuing as a part of “the New Sunshine Project” promoted by the Ministry of International Trade and Industry (MITT). The final target of the program is to achieve 42% thermal efficiency at 1350°C of turbine inlet temperature (TIT) and to keep NOx emissions below present national regulations. Under contract to the New Energy and Industrial Technology Development Organization (NEDO), Kawasaki Heavy Industries, Ltd. (KHI) has been developing the CGT302 with Kyocera Corporation and Sumitomo Precision Products Co., Ltd. By the end of the fiscal year 1996, the CGT302 achieved 37.0% thermal efficiency at 1280°C of TIT. In 1997, TIT reached 1350°C and a durability operation for 20 hours at 1350°C was conducted successfully. Also fairly low NOx was proved at 1300°C of TIT. In January 1998, the CGT302 has achieved 37.4% thermal efficiency at 1250°C TIT. In this paper, we will describe our approaches to the target performance of the CGT302 and current status.
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Yamagishi, Kiichiro, Yukio Yamada, Yoshihiro Echizenya, and Shoji Ishiwata. "Current Status of Ceramic Gas Turbine R&D in Japan." In ASME 1989 International Gas Turbine and Aeroengine Congress and Exposition. American Society of Mechanical Engineers, 1989. http://dx.doi.org/10.1115/89-gt-114.

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The Japanese Ministry of International Trade and Industry (MITI) has started two nine-year national R&D projects for small-capacity ceramic gas turbines (CGTs) from 1988, following several preliminary investigations of the technical aspects and of the social impacts of CGTs. Planned 300kW industrial ceramic gas turbines are to be used for co-generation and mobile power generation. The goals are 42% and higher for the thermal efficiency at the turbine inlet temperature of 1350°C, and the emission from the exhaust gas should meet the regulatory values. Also ceramic components have the goals of 400MPa for the minimum flexure strength at 1500°C, and 15 MPam1/2 for the fracture toughness. New Energy and Industrial Technology Development Organization (NEDO) is the main contractor, and three groups of private industries are the subcontractors for 300kW industrial CGT project. Three national research institutes are involved in the projects to conduct supportive research of ceramic materials and engine components as well as to carry out assessment of the materials and engine systems developed by the private industries. The development of 100kW CGT for automotive use was also recommended in the above stated investigations and a two-year preliminary study started in 1988. The full-scale 100kW automotive CGT R&D project is scheduled to start in 1990 after the preliminary study. Japan Automobile Research Institute, Inc. (JARI) is the main contractor for 100kW automotive CGT project with the cooperation of three automobile companies.
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Nakayama, Shinichi, Yoshio Watanabe, and Masami Kato. "Regulatory Research for Geological Disposal of High-Level Radioactive Waste in Japan." In ASME 2010 13th International Conference on Environmental Remediation and Radioactive Waste Management. ASMEDC, 2010. http://dx.doi.org/10.1115/icem2010-40116.

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The Nuclear and Industrial Safety Agency of the Ministry of Economy, Trade and Industry (NISA) has renewed its regulatory role and its need for regulatory research on radioactive waste management, with recent circumstances of radioactive waste management in Japan being taken into consideration. In response, a technical supporting organization, the Japan Nuclear Energy Safety Organization (JNES), in 2009 released the five-year research plan “Regulatory Research Plan on Radioactive Waste Management 2010–2014”, in cooperation with the research institutes of the Japan Atomic Energy Agency (JAEA) and the National Institute of Advanced Industrial Science and Technology (AIST). The geological disposal research plan and the future research activities are outlined in this paper. JNES launched safety studies on geological disposal in 2003, the year it was established. JAEA and AIST joined as regulatory support research institutes in 2005. In October 2007, all three parties signed an agreement of cooperative study on geological disposal, which facilitated joint studies and exchanges of staff, data, and results. One of the ongoing joint studies has focused on regional-scale hydrogeological modeling using JAEA’s Horonobe Underground Research Laboratory.
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