NAKAMURA Shinichiro: Major Publications

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Journals Books Proceedings/Reports

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ball Journals

  1. Shinichiro Nakamura and Yassushi Kondo, "Toward an integrated model of the circular economy: dynamic waste input-output", Resources, Conservation, and Recycling, 2018, 139, pp. 326-332, https://doi.org/10.1016/j.resconrec.2018.07.016, Open access
  2. Chen Lin and Shinichiro Nakamura, "Approaches to solving Chinafs marine plastic pollution and CO2 emission problems", Economic Systems Research, Published online: 09 Jul 2018, Open access.
  3. Hajime Ohno, Kazuyo Matsubae, Kenichi Nakajima, Yasushi Kondo, Shinichiro Nakamura, Yasuhiro Fukushima, and Tetsuya Nagasaka, "Optimal Recycling of Steel Scrap and Alloying Elements: Input-Output based Linear Programming Method with Its Application to End-of-Life Vehicles in Japan" Environmental Science and Technology, 2017, 51 (22), pp 13086-13094, DOI: 10.1021/acs.est.7b04477, Publication Date (Web): November 7, 2017
  4. Shinichiro Nakamura, Yasushi Kondo, Kenichi Nakajima, Hajime Ohno, and Stefan Pauliuk, "Quantifying recycling and losses of Cr and Ni in steel throughout multiple life cycles using MaTrace-alloy" Environmental Science and Technology, 2017, 51 (17), pp 946-9476, DOI: 10.1021/acs.est.7b01683 Publication Date (Web): August 14, 2017
  5. Stefan Pauliuk, Yasushi Kondo, Shnichiro Nakamura, and Kenichi Nakajima, Regional distribution and losses of end-of-life steel throughout multiple product life cycles - Insights from the global multiregional MaTrace model", Resources Conservation and Recycling, 116 (2017) 84-93.
  6. Lu, X., Matsubae, K., Nakajima, K., Nakamura, S., and Nagasaka, T. (2016). Thermodynamic Considerations of Contamination by Alloying Elements of Remelted End-of-Life Nickel-and Cobalt-Based Superalloys. Metallurgical and Materials Transactions B, 47(3), 1785-1795. DOI: 10.1007/s11663-016-0665-2
  7. Hajime Ohno, Kazuyo Matsubae, Kenichi Nakajima, Yasushi Kondo, Shinichiro Nakamura, and Tetsuya Nagasaka; Towards the efficient recycling of alloying elements from End of Life Vehicle steel scrap, Resources, Conservation and Recycling, 100, July 2015, 11-20, doi:10.1016/j.resconrec.2015.04.001
  8. Meng-I. Liao, Pi-cheng Chen, Hwong-wen Ma, Shinichiro Nakamura; Identification of the driving force of waste generation using a high-resolution waste input-output table, Journal of Cleaner Production, 94, 294-303, 2015, DOI: 10.1016/j.jclepro.2015.02.002
  9. Iwao Sakaguchi, Yasushi Inoue, Shinichiro Nakamura, Yoshihiro Kojima, Ryo Sasai, Kayo Sawada, Kenji Suzuki, Chisato Takenaka, and Arata Katayama; Assessment of soil remediation technologies by comparing health risk reduction and potential impacts using unified index, disability-adjusted life years Clean Techn Environ Policy (2015) 17: 1663-1670, DOI 10.1007/s10098-014-0871-z
  10. Takehito Hiraki, Takahiro Miki, Kenichi Nakajima, Kazuyo Matsubae, Shinichiro Nakamura, and Tetsuya Nagasaka: Thermodynamic Analysis for the Refining Ability of Salt Flux for Aluminum Recycling, Materials 2014, 7(8), 5543-5553; doi:10.3390/ma7085543
  11. Nakamura, Shinichiro; Kondo, Yasushi; Kagawa, Shigemi; Matsubae, Kazuyo; Nakajima, Kenichi; Nagaska, Tetsuya: MaTrace: Tracing the fate of materials over time and across products in open-loop recycling, Environmental Science & Technology, 2014, 48 (13), pp 7207-7214, http://dx.doi.org/10.1021/es500820h
  12. Shigemei Kagawa, Shinichiro Nakamura, Yasushi Kondo, Kazuyo Matsubae, and Tetsuya Nagasaka: Forecasting Replacement Demand of Durable Goods and the Induced Secondary Material Flows: A Case Study of Automobiles, Journal of Industrial Ecology 19, 10-19, 2015 DOI: 10.1111/jiec.12184
  13. Hajime Ohno, Kazuyo Matsubae, Kenichi Nakajima, Shinichiro Nakamura, and Tetsuya Nagasaka: Unintentional Flow of Alloying Elements in Steel during Recycling of End-of-Life Vehicles, Journal of Industrial Ecology 18, 242-253, 2014, 10.1111/jiec.12095
  14. Kenichi Nakajima, Hajime Ohno, Yasushi Kondo, Kazuyo Matsubae, Osamu Takeda, Takahiro Miki, Shinichiro Nakamura, and Tetsuya Nagasaka, Simultaneous MFA of nickel, chromium and molybdenum used in alloy steel by means of input-output analysis, Environmental Science & Technology 47, 4653-4660, 2013, DOI: 10.1021/es3043559is
  15. X. Lu, T. Hiraki, K. Nakajima, O. Takeda, K. Matsubae, H.-M. Zhu, S. Nakamura, T. Nagasaka, Thermodynamic analysis of separation of alloying elements in recycling of end-of-life titanium products, Separation and Purification Technology, 89 (2012) 135-141, doi:10.1016/j.seppur.2012.01.008
  16. Shinichiro Nakamura, Yasushi Kondo, Kazuyo Matsubae, Kenichi Nakajima, Tasaki Tomohiro and Tetsuya Nagasaka,: Quality- and dilution losses in the recycling of ferrous materials from end-of-life passenger cars: input-output analysis under explicit consideration of scrap quality, Environmental Science & Technology, 2012, 46 (17), 9266-9273 http://dx.doi.org/10.1021/es3013529
  17. Kondo, Y., Nakajima, K., Matsubae, K. and Nakamura, S.: The anatomy of capital stock: input-output material flow analysis (MFA) of the material composition of physical stocks and its evolution over time, Revue de Metallurgie 109, 293-298, 2012, http://dx.doi.org/10.1051/metal/2012022
  18. Kenichi Nakajima, Keisuke Nansai, Kazuyo Matsubae, Yasushi Kondo, Shigemi Kagawa, Rokuta Inaba, Shinichiro Nakamura, Tetsuya Nagasaka.: Identifying the substance flow of metals embedded in Japanese international trade by use of Waste Input-Output Material Flow Analysis (WIO-MFA) model, ISIJ International 51, 1934-1939, 2011, DOI :10.2355/isijinternational.51.1934
  19. Shinichiro Nakamura: Hybrid Input-Output Analysis as a Tool for Communication Among Scientists of Different Disciplines, Journal of Industrial Ecology 15, 661-663, 2011
  20. K.Matsubae, K.Nakajima, S.Nakamura, and T.Nagasaka: Impacts on CO2 of the recovery of secondary ferrous materials from alternative ELV treatment methods: a Waste Input Output Analysish ISIJ International, .51 ,151-157, 2011
  21. K. Nakajima, O. Takeda, T. Miki, K. Matsubae-Yokoyama, S. Nakamura and T. Nagasaka: Thermodynamic Analysis of Contamination by Alloying Elements in Aluminum Recyclingh Environmental Science and Technology, .44, 5594-5600, 2010
  22. Takehito Hiraki, Osamu Takeda, Kenichi Nakajima, Kazuyo Matsubae, Shinichiro Nakamura, and Tetsuya Nagasaka: Thermodynamic Criteria for the Removal of Impurities from End-of-Life Magnesium Alloys by Evaporation and Flux Treatment, Science and Technology of Advanced Materials, .12 (doi:10.1088/1468-6996/12/3/035003) 2011
  23. Kagawa, S., Nansai, K., Kondo, Y., Hubacek, K., Suh, S., Minx, J., Kudoh, Y., Tasaki, T., and Nakamura, S: Role of Motor Vehicle Lifetime Extension in Climate Change Policy, Environmental Science & Technology, 45 (January 2011): 1184-1191
  24. Shinichiro Nakamura, Yasushi Kondo, Kazuyo Matsubae, Kenichi Nakajima, Tetsuya Nagasaka,: UPIOM: A New Tool of MFA and Its Application to the Flow of Iron and Steel Associated with Car Production, Environmental Science & Technology, 45, 1114-1120, 2010, DOI: 10.1021/es1024299
  25. Kenichi Nakajima, Osamu Takeda, Takahiro Miki, Kazuyo Matsubae-Yokoyama, Shinichiro Nakamura and Tetsuya Nagasaka, Thermodynamic Analysis of Contamination by Alloying Elements in Aluminum Recycling, Environmental Science & Technology, 44, 5594-5600, 2010
  26. Shinichiro Nakamura, and Eiji Yamasue, Hybrid LCA of a Design for Disassembly technology: Active Disassembling Fasteners of Hydrogen Storage Alloys for Home Appliances, Environmental Science & Technology, 44 (12), 4402–4408, 2010
  27. Shinichiro Nakamura, Kenichi Nakajima, Yoshie Yoshizawa, Kazuyo Matsubae-Yokoyama, Tetsuya Nagasaka: Material Flow Analysis of Polyvinyl Chloride in Japan based on the WIO-MFA Model, Journal of Industrial Ecology 13 (5), 706-717, 2009
  28. Shinichiro Nakamura, Shinsuke Murakami, Kenichi Nakajima, Tetsuya Nagasaka:   Hybrid input-output approach to metal production and its application to the introduction of lead-free solders, Environmental Science & Technology, 42 (10) 3843-3848 (2008)
  29. Kenichi NAKAJIMA, Kazuyo MATSUBAE-YOKOYAMA, Shinichiro NAKAMURA, Satoshi ITOH and Tetsuya NAGASAKA, Substance Flow Analysis of Zinc Associated with Iron and Steel Cycle in Japan, and Environmental Assessment of EAF Dust Recycling Process, ISIJ International, Vol. 48 (2008), No. 10, pp. 1478.1483
  30. Shinichiro Nakamura, Kenichi Nakajima, Yasushi Kondo and Tetsuya Nagasaka: The Waste Input-Output Approach to Material Flow Analysis: Concepts and Application to Base Metals, Journal of Industrial Ecology, 11 (4), 50-63 (2007)
  31. Shinichiro Nakamura and Yasushi Kondo, gHybrid LCC of Appliances with Different Energy Efficiency.h International Journal of Life Cycle Assessment, 11-5, 305-314, 2006
  32. Shinichiro Nakamura and Yasushi Kondo: A Waste Input-Output Life Cycle Cost Analysis of the Recycling of End-of-life Electrical Home Appliances, Ecological Economics,  57-3, 494-506, 2006.
  33. Shinichiro Nakamura and Kenichi Nakajima: Waste Input-Output Material Flow Analysis of Metals in the Japanese Economy, Materials Transactions 46-12, 2550-2553, 2005,
  34. Yasushi Kondo and Shinichiro Nakamura: Waste Input-Output Linear Programming Model with Its Application to Eco-Efficiency Analysis, Economic Systems Research, 17 (4), 393–408, 2005
  35. Yasushi Kondo and Shinichiro Nakamura: Evaluating Alternative Life-Cycle Strategies for Electrical Appliances by the Waste Input-Output Model, International Journal of Life Cycle Assessment,  9 (4), 236-246, 2004.
  36. Shinichiro Nakamura and Yasushi Kondo: Input-Output Analysis of Waste Management, Journal of Industrial Ecology Vol. 6, No.1, pp.39-64, 2002.
  37. Shinichiro Nakamura and Yasushi Kondo: Recycling, landfill consumption, and CO2 emission: analysis by waste input-output model, Journal of Material Cycles and Waste Management Vol.4, No.1, pp. 2-11, 2002.
  38. Shinichiro Nakamura, A Nonhomothetic Globally Concave Flexible Cost Function and Its Application to Panel Data, The Japanese Economic Review 52-2, pp. 208-223, 2001. 
  39. Subal Kumbhaker, Shinichiro Nakamura and Almas Heshmati, Total Factor Productivity Growth and Technical Change: The Japanese Chemical Industry 1968-1987, , Econometric Review,@10 (4). 2000.
  40. Shinichiro Nakamura, An Interindustry Approach to Analyzing Economic and Environmental Effects of the Recycling of Waste, Ecological Economics, Vol. 28 (1) pp. 133-145, 1999.
  41. Shinichiro Nakamura, An Adjustment Cost Model of Long-Term Employment in Japan, Journal of Applied Econometrics, Vol.8, 1993, pp.175-194
  42. M. Denny, J. Bernstein, M. Fuss, S. Nakamura and L. Waverman, Productivity in manufacturing industries - Canada, Japan and United State, 1959-1986: Was the Productivity Slowdown reversed?, Canadian Journal of Economics Vol.15, No.3, 1992, pp.584-603
  43. M. Denny, J. Bernstein, M. Fuss, S. Nakamura and L. Waverman, Japan's challenge to Canadian manufacturing industries : productivity growth and level, Economic Studies Quarterly Vol.43, No.4, 1992
  44. Shinichiro Nakamura, Explaining Japan and US TFP Difference, Economic Studies Quarterly Vol.43, No.4, 1992
  45. Shinichiro Nakamura, Adjustment Costs in Stagnant and Repidly Growing Industires, Keio economic studies 29 (2), 1992, pp. 1- 14
  46. Shinichiro Nakamura, A Nonhomothetic Generalized Leontief Cost Function Based on Pooled Data, The Review of Economics and Statistics Vol.72, No.4, November 1990, pp. 649-656
  47. Matsuo Saito and Shinichiro Nakamura, Impacts of robotization on the Japanese economy, Technological Forecasting and Social Change Vol. 35, 167-177, 1989
  48. Shinichiro Nakamura, Productivity and factor prices as sources of differences in production costs between Japan, Germany and the U.S., Economic Studies Quarterly Vol. 40, No. 1, 1989
  49. Shinichiro Nakamura, A dynamic multi-sectoral model of production, investment and prices based on flexible cost functions, Vierteljahresheft zur Wirtshaftsforschung 86/4, German Institute of Economic Research (DIW), Berlin, 1986, pp. 110-122
  50. Shinichiro Nakamura, A flexible dynamic model of multiproduct technology for the West German economy, Journal of Applied Econometrics 1, 1986, pp. 333-344
  51. Shinichiro Nakamura, A test of restrictions in a dynamic singular demand system, Zeitschrift fuer Nationaloekonomie 45, 1985, pp. 313-330
  52. Shinichiro Nakamura, Technological Change and Production Function: The Case of West Germany , Keio Economic Studies 14 (2), 1977, pp. 85- 113, A condensed version of my MA thesis submitted to Keio University in 1977.

ball Books

  1. Nakamura S. and Kondo Y. Waste Input-Output Analysis: Concepts and Application to Industrial Ecology, Eco-Efficiency in  Industry and Science Vol. 26, Springer, 2009
  2. Shinichiro Nakamura, Life-Cycle Input-Output Analysis, 2007, Waseda University Press,  Tokyo,  in Japanese
  3. Shinichiro Nakamura, Toward an Economics of Waste (haikibutsu keizaigaku wo mezashite ), 2002, Waseda University Press,  Tokyo,  in Japanese
  4. Shinichiro Nakamura, Input-Output Analysis by Excel (Excel de manabu sangyou renkan bunseki), 2000, Ekonomisutosha, Tokyo,  in Japanese
  5. Shinichiro Nakamura, An interindustry translog model of prices and technical change for the West German Economy, Lecture Notes in Economics and Mathematical Systems No. 221, 1984, Springer Verlag, Berlin, Heidelberg, New York, Tokyo

ball  Book chapters/Proceedings/Reports

  1. Nakamura, Shinichiro, and Keisuke Nansai. "Input-Output and Hybrid LCA." Special Types of Life Cycle Assessment. Springer Netherlands, 2016. 219-291 ISBN: 978-94-017-7608-0 (Print) 978-94-017-7610-3 (Online)
  2. Metal Recycling Opportunities, Limits, Infrastructure, Report 2b of the Global Metal Flows Working Group of the International Resource Panel of UNEP, United Nations Environment Programme, 2013, Nakamura is one of the contributors to this report.
  3. Yasushi Kondo and Shinichiro Nakamura, UPIOM Cube: A New Tool for Visualization of Inter-industry Flow of Various Types of Material with Its Application to Car Production, EnviroInfo 2011: Innovations in Sharing Environmental Observations and Information, 2011 Shaker Verlag Aachen, ISBN: 978-3-8440-0451-9
  4. Shinichiro Nakamura: Synthesis of Material Flow Analysis and Input-Output Analysis, in Thermodynamics and the Destruction of Resources, Edited by: Bhavik R. Bakshi, Timothy G. Gutowski, and Dusan P. Sekulic, Cambridge University Press, 2011,334-361
  5. Gerald Rebitzer and Shinichiro Nakamura: Environmental life cycle costing, in David Hunkeler, Kerstin Lichtenvort, and Gerald Rebitzer eds. Environmental Life Cycle Costing, CRS Press, Boca Raton 2008, 35-58
  6. Shinichiro Nakamura: Evaluating eco-efficiency of appliances by integrated use of hybrid LCA and LCC tools, in S. Takada and Y.Umeda eds., Advances in Life Cycle Engineering for Sustainable Manufacturing Business, Springer, London, 2007, 445-448
  7. S. Nakamura and K. Nakajima: Waste Input-Output Material Flow Analysis of Metals, in T. White, C. Ferraris, L. Yu, K. Halada, and O. Umezawa eds.: Advancement in Ecomaterials, 7th International Conference on Ecomaterials, Vol. 2, Stallon Press, Singapore, 2005, pp. 586-590. 
  8. Shinichiro Nakamura and Yasushi Kondo, Impact environmental et coût économique du traitement des déchets  Analyse par le modèle entrée-sortie des déchets, in L. M. Cloutier and C. Debresson eds. Changement Climatique, Flux Technologiques, Financiers et Commerciaux (Climate Change and Technological Innovation: New Input-Output Analysis Methods), Presses de lfUniversité du Québec, 2004, pp.91-103
  9. Shinichiro Nakamura and Yasushi Kondo, Recycling and extended life of electric home appliances: hybrid analysis based on the waste input-output model, Proceeding of the 2004 IEEE International Symposium on Electronics and the Environment,  IEEE, Piscataway,  104-105, 2004. 
  10. Shinichiro Nakamura, Waste Input-Output Analysis of Disposal, Recycling, and Extended Life of Electric Home Appliances, Second International Symposium on Environmentally Conscious Design and Inverse Manufacturing, Proceedings, IEEE Computer Society, Los Alamitos, 2001, pp.814-819.
  11. Shinichiro Nakamura, Inter-industry Analysis of the Demand for Landfill Capacity, in Hanashima. M. ed. Modern Landfill Technology and Management, Japan Society of Waste Management Experts, pp. 178-185, (2000).
  12. Shinichiro Nakamura and Yasushi Kondo, Recycling of Electrical Home Appliances: Its Impacts on the Economy and Environment, H. Reichl and H. Griese (editors) Electronics Goes Green 2000+, Proceedings Volume 1, VDE Verlag, Berlin, 2000, pp.827-832.
  13. Shinichiro Nakamura, Input-Output Analysis of Waste Cycles, First International Symposium on Environmentally Conscious Design and Inverse Manufacturing, Proceedings, IEEE Computer Society, Los Alamitos, 1999, pp.475-480. pdf
  14. Shinichiro Nakamura, Explaining Cost Differences between Germany, Japan, and the USA, in William Peterson ed., Advances in Input Output Analysis: Technology, Planning and Development, Oxford University Press, 1991, pp.108-120
  15. Shinichiro Nakamura, Productivity Development and R&D in German and Japanese Manufacturing, Sektorale und gesamtwirtschaftliche Beschaeftigungen moderner Technologien Band 2, Deutsches Institut fuer Wirtschaftsforschung, Berlin, 1988
  16. Sigrid Mueller and Shinichiro Nakamura, Das Bonner Vierteljahresmodell, in W. Krelle ed., Oekonomische Prognose-Entscheidungs- und Gleichgewichtsmodelle, Chemie Verlag, Weinheim, 1986, pp. 107-122 .
  17. Shinichiro Nakamura, Ein multisektorales Modell zur Erklaerung der Preise und der Verflechtungsstruktur fuer die Bundesrepublik Deutschland, in W. Krelle ed., Oekonomische Prognose-, Entscheidungs- und Gleichgewichtsmodelle, Chemie Verlag, Weinheim, 1986, pp. 99-106
  18. Sigrid Mueller and Shinichiro Nakamura, Das Bonner Vierteljahresmodell: Version 2, in H. Langer, J. Martinsen and H. Quinke eds., Simulationsexperimente mit Oekonometrischen Makromodellen, Oldenbourg Verlag, Munich, 1984, pp. 111-137.
  19. Shinichiro Nakamura, Use of the Agggregator Function to Determine Import Shares in a Multi-Sectoral Model, in W. Eichhorn, R. Henn, K. Neumann, and R. W. Shephard, eds., Quantitative Studies on Production and Prices, Physica Verlag, Wuerzburg-Wien, 1983, 242-271.

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