Modeling Work Practices under Socio-Technical Systems for Sustainable Manufacturing Performance

Qureshi, Muhammad Imran; Rasiah, Rajah; Al‐Ghazali, Basheer M.; Haider, Maqsood; Jambari, Hanifah; Iswan,; Sasmoko,

doi:10.3390/su11164294

Cited by 23 publications

(20 citation statements)

References 45 publications

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“…Consequently, manufacturing activities utilize a considerable amount of energy and natural resources [7]. The International Energy Agency declared that 36% of carbon dioxide (CO 2 ) emissions worldwide are due to the manufacturing sector [8]. Similar to the case of countries in the Association of Southeast Asian Nations (ASEAN), economic development goals cause a threat to the environment.…”

Section: Introductionmentioning

confidence: 99%

Classifications of Sustainable Manufacturing Practices in ASEAN Region: A Systematic Review and Bibliometric Analysis of the Past Decade of Research

et al. 2020

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This paper aimed to map the existing sustainable manufacturing literature to explore and classify existing practices to highlight the potential prospect of and obstacles to achieving manufacturing sustainability in countries in the Association of Southeast Asian Nations (ASEAN). This paper systematically reviews the research on sustainable manufacturing in the ASEAN region from 2011 to 2020. We used the PRISMA framework for systematic literature, and 118 research articles specific to the ASEAN region were identified through a structured keyword search in Web of Science, SCOPUS, ProQuest, and other databases. After a careful screening process, only 115 records were found appropriate to be included for review in the current study. The results revealed three significant sets of manufacturing practices that are widely used for sustainable manufacturing. These are sustainable product development, sustainable manufacturing performance, and environmental assessment and monitoring. Furthermore, we conducted a bibliometric analysis of the literature to highlight ASEAN countries’ collaborative efforts to achieve sustainability in manufacturing. The findings indicate that most of the earlier work on sustainable manufacturing focused on environmental assessment practices rather than providing holistic industrial engineering solutions. We recommend that the efforts focus on hybrid processes to establish sustainable manufacturing procedures in ASEAN member countries. Holistic solutions through industrial processing integration need to be developed to provide broader industrial solutions to protect the environment and society from the adverse effects of the manufacturing process with economic efficiency.

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Section: Introductionmentioning

confidence: 99%

Classifications of Sustainable Manufacturing Practices in ASEAN Region: A Systematic Review and Bibliometric Analysis of the Past Decade of Research

et al. 2020

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“…H 9 (x) = 0, 5(1 + sin (A(A(A(A(A(A(A(A(x)))))))))) H 10 (x) = 0, 5(1 + sin (A(A(A(A(A(A(A(A(A(x)))))))))) H 11 (x) = 0, 5(1 + sin (A(A(A(A(A(A(A(A(A(A(x))))))))))) (6) where A(x) = π 2 sin x. The thickness of the lines in the figure increases as the number of investments of approximating functions increases, interpreting the increase in the integration of objects [30] and the degree of combination of resources to increase the H i by the factors of innovation x. For A = 18, the approximation corresponds most closely to the approximation of the delta function of Formula (1), shown by the vertical line in Figures 3a and 5.…”

Section: Results Of Verification Of Methods and Verification Of Theirmentioning

confidence: 95%

Modeling Regulation of Economic Sustainability in Energy Systems with Diversified Resources

Alabugin¹,

Aliukov²

2020

Sci

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The imperfection of theoretical and methodological approaches to regulate the jump process transition when combining differentiated energy resources is a pressing issue. The goal of this paper is to develop a theory and a method to regulate the integration-balancing processes of combining diversified resources. The concept of combining integration and balancing models has been substantiated by methods of transforming multidimensional space and approximating generalized functions that represent jump-like processes. Theoretical and operational-regulatory models of economic sustainability have been developed, substantiating new concepts, patterns, properties, dependencies and indicators of the dynamics of the processes of combination; the optimality conditions for the number of approximations of generalized functions, interpreting the effects of control functions of combining resources, are determined. New methods for solving problems have been developed: the organization of the energy technology complex of facilities for enhanced resource diversification and the Center for Sustainability, improving the quality of managing dynamic processes in terms of combining and diversifying resources.

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“…For the identification of the factors, studies related to ergonomics and sustainable development [1,17,21,[45][46][47] were considered. Some works related to sustainability assessment tools and indicators (e.g., the report of the Organization for Economic Cooperation and Development, OECD; Global Reporting Initiative, GRI; Dow Jones Sustainability Index, DJSI) were utilized as sources of guidance, and expert suggestions were considered.…”

Section: Discussionmentioning

confidence: 99%

Ergonomics-Based Factors or Criteria for the Evaluation of Sustainable Product Manufacturing

2019

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The issue of sustainability has received substantial attention internationally. It is spreading widely through policy, industry, commerce, research, academia, and other arenas. However, most previous studies on product sustainability were conducted based on a consideration of environmental protection, economic prosperity, and social wellbeing criteria, but there was less representation of specific social wellbeing criteria. The main objective of this study was to formulate well-defined ergonomics-based criteria for product sustainability evaluation and to validate the importance of the identified factors using a fuzzy Delphi method. In this paper, ergonomics-based product sustainability factors are organized by sustainability categories and grouped into employee wellbeing, the economy, and the environment. In the context of manufacturing, evaluating product sustainability from an ergonomics perspective provides more comprehensive social dimension criteria by addressing human characteristics, behavior, performance, human interaction with a product, workplace, working environment, and the product across its life cycle. In addition, a Delphi questionnaire, designed with a nine-point scale, was applied to obtain expert opinions on the importance of each factor; the opinions were combined for each factor by considering the degree of importance assigned to the experts, and the similarities and differences between expert opinions. Finally, high-priority factors were screened from the sustainability categories based on their respective threshold value. Knowing these high-priority factors will help manufacturing industries allocate their resources accordingly for sustainability improvement.

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Modeling Work Practices under Socio-Technical Systems for Sustainable Manufacturing Performance

Cited by 23 publications

References 45 publications

Classifications of Sustainable Manufacturing Practices in ASEAN Region: A Systematic Review and Bibliometric Analysis of the Past Decade of Research

Classifications of Sustainable Manufacturing Practices in ASEAN Region: A Systematic Review and Bibliometric Analysis of the Past Decade of Research

Modeling Regulation of Economic Sustainability in Energy Systems with Diversified Resources

Ergonomics-Based Factors or Criteria for the Evaluation of Sustainable Product Manufacturing

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