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Affiliation |
Graduate School of Engineering Science Cooperative Major in Sustainable Engineering |
MISHIMA Nozomu
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Graduating School 【 display / non-display 】
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1982.04-1986.03
The University of Tokyo Faculty of Engineering Graduated
Graduate School 【 display / non-display 】
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1986.04-1988.03
The University of Tokyo Graduate School, Division of Engineering Master's Course Completed
Campus Career 【 display / non-display 】
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2022.04-Now
Akita University Graduate School of Engineering Science Cooperative Major in Sustainable Engineering Professor
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2016.04-2022.03
Akita University Graduate School of Engineering Science Cooperative Major in Life Cycle Design Engineering Professor
Research Areas 【 display / non-display 】
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Environmental Science/Agriculture Science / Environmental load reduction and remediation
Research Achievements 【 display / non-display 】
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Identification of Product Specifications Based on KANO Model and Application to Ecodesign
Nozomu Mishima
Manufacturing Driving Circular Economy 2023.04 [Refereed]
Research paper (journal) Single author
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Closed-loop supply chain under different channel leaderships: considering different deposit–refund systems practically applied in China
Juntao Wang, Wenhua Li, Mishima Nozomu, Tsuyoshi Adachi
Journal of Material Cycles and Waste Management 23 ( 3 ) 1765 - 1776 2021.05 [Refereed]
Research paper (journal) International Co-author
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Province-level estimation of waste mobile phones in China and location planning of recycling centers
Wang, J., Mishima, N.
Waste Management and Research 37 ( 9 ) 898 - 905 2019.11 [Refereed]
Research paper (journal) Domestic Co-author
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Eco-efficiency Evaluation of Modular Design Smartphones
Hirose, K., Mishima, N.
Procedia CIRP 84 1054 - 1058 2019.09 [Refereed]
Research paper (journal) Domestic Co-author
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A Study of Formal Post-products Collected to Reuse Business Structures on Resource Sustainability through System Dynamics
Wang, J., Li. W., Mishima, N.
Prodedia CIRP 69 833 - 837 2018.11 [Refereed]
Research paper (journal) Domestic Co-author
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Resource Efficiency Quantification of a Long-life Product Considering Service Activities through Lifecycle -Using Japanese K-Car as a case study-
Nozomu Mishima, Zhenxing Zhang
Proceedings of Ecodesgin2021 2021.12 [Refereed]
Research paper (international conference proceedings) Domestic Co-author
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Machine Recognition of ICs in Recycling Process of Small-sized Electronics
Zizhen Liu, Nozomu Mishima
Proceedings of Ecodesgin2021 2021.12 [Refereed]
Research paper (international conference proceedings) Domestic Co-author
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Wang J., Mishima, N.
Sustainable Production, Life Cycle Engineering and Management ( Sustainable Production, Life Cycle Engineering and Management ) 175 - 185 2021
Research paper (international conference proceedings)
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Environmental Impact Assessment of Functional and Visual Design Features of Smartphones
Naito, T., Mishima, N.
Technologies and Eco-innovation towards Sustainability I 2019.01 [Refereed]
Research paper (international conference proceedings) Domestic Co-author
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The Effects of Collection Promotions on Resources Efficient Utilization and Resources Sustainability of Mobile Phone Market: A System Dynamics Approach
Wang J., Li W., Mishima N.
Technologies and Eco-innovation towards Sustainability I 135 - 146 2019.01
Research paper (international conference proceedings) Domestic Co-author
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Proposal of collaborative PBL by local industries, students and Akita University
MISHIMA Kuniko, MISHIMA Nozomu
The Proceedings of Mechanical Engineering Congress, Japan ( The Japan Society of Mechanical Engineers ) 2019 ( 0 ) 2019
<p>Universities have many missions such as education of students, promoting industries, scientific and engineering researches, and so on. Faculty of Engineering Science, Akita University also has a mission to collaborate with industries in the area as a part of COC (center of community) program. In order to carry out the mission, one of our efforts is to collaborate with local industries and foster students by an educational method called PBL (project based learning). In the program, each collaborating company proposes a subject to be solved by a students' team and the assigned team tries to make some proposals. The program continues from April through August and finishes at the open symposium inviting all the collaborating companies. Although each team is supervised by a company liaison, a mentor and a TA, proposals should be made by students' team itself. This program is, of course, a good scheme to foster knowledge, autonomy, communication skills etc. At the same time, the program is useful in encouraging collaborations between local industries, students and the university. Although the program is still under development and improvement, it can be concluded it has promising effects in engineering education.</p>
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A Study on Risk Assessment of Wind Power Systems in Akita Prefecture
MISHIMA Nozomu, YAMADA Kyoka
The Proceedings of Mechanical Engineering Congress, Japan ( The Japan Society of Mechanical Engineers ) 2019 ( 0 ) 2019
<p>Based on the prefectural strategy to promote local industry Akita prefecture is strongly focusing on boosting economy by wind energy industry.. Since there is no producer in the prefecture, focused area is so-called operation and maintenance. In this study, annual operation report provided by NEDO was analyzed. Based on the data, frequency, severity and detectivity were quantified. By multiplying the 3 indices, risk priority number was calculated. Then, the paper clarifies which failure modes should be focused on and which parts should be prepared for repair parts. Plus, the study also considerers proper strategies to change maintenance method from BM (breakdown maintenance) to CBM(condition based maintenance) of TBM(Time based maintenance). Effect of such changes will be quantified throughout some methods. Then, the proper strategies in operating wind power systems in the prefecture will be shown.</p>
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Conceptual Design of a Configurator Enables Sustainable Consumption of Clothes
HONDA Moe, MISHIMA Kuniko, MISHIMA Nozomu
The Proceedings of Mechanical Engineering Congress, Japan ( The Japan Society of Mechanical Engineers ) 2019 ( 0 ) 2019
<p>Nowadays, so-called "Fast fashion" is getting more popular in apparel industry. It becomes a big environment load, because mass production, mass consumption, and mass disposal are ongoing. However, for sustainable development, we must treat clothes carefully, and it is necessary to continue using it until the clothes reach the end of physical life. In this study, we propose a configurator displaying the environment load in the process of manufacturing and integrating two viewpoints of producers and consumers. Then, for clothes, it can make consumers to customize favorite clothes by showing various choice of items and displaying the environmental load of the clothes which they customized. In conclusion, a framework to motivate long-time usage of clothes for consumers by displaying the environmental load and enabling the customized design has been proposed. We also carried out the conceptual design of the configurator. Although there are many tasks to be done, such configurator can contribute in increasing "Green Consumers" and reducing the environmental load of apparel industry by promoting the long-time usage.</p>
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Life Cycle Simulation for Sustainable Product Service Systems, Handbook of Sustainable Engineering
Komoto, H., Mishima, N.
Handbook of Sustainable Engineering 633 - 652 2013.09 [Refereed]
Research paper (other academic council materials etc.) Domestic Co-author
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Sustainable Production: Eco-efficiency of Manufacturing Process
Mishima, N.
Handbook of Sustainable Engineering 519 - 540 2013.09 [Refereed]
Research paper (other academic council materials etc.) Single author