Open Access
Kanchan D. Ganvir,
Rakeshkumar Jain,
- Research Scholar, Department of Mechanical Engineering, Himalayan University, Itanagar, Arunachal Pradesh, India
- Research Scholar, Department of Mechanical Engineering, Himalayan University, Itanagar, Arunachal Pradesh, India
Abstract
Industrialization has become a thriving key concern in the present serious world. The organizations are endeavoring hard to continue to survive for themselves. Henceforth are giving better products with quality, customer satisfaction and benefits and are improving their assembling activities in the present remarkable worldwide rivalry. On the other hand, the assembling area devours parcel of energy and different assets leading to discharge of enormous measures of ozone harming substances which ultimately increases ecological issues like environmental change and boost up an Earth-wide temperature and diminishing ecological balance worldwide. Furthermore, it likewise found a lot of energy is additionally squandered in numerous structures. One of the potential ways to strike out these issues is Green Manufacturing. An attempt to acquire gain in quality products, Green Manufacturing can be applied in all production and assembling areas that limit squander and contamination, enables monetary advancement, and monitor assets. The current work centers around accomplishing Green Assembling by utilizing different strategies that has sway on decrease in waste and ecological contamination. The study examines particular dimensions of green manufacturing tools Applicability and FMS such as Information technology, planning, flexible automation techniques. The outcome will determine the major substantiate to establish and strengthen the value of product with superior performance, Using the findings the research will suggests the implication and adoption for further research. Also, a perspective is needed, henceforth requirement for some innovative technique is there, that might solve the problems and can lead towards the productivity sales and economic advancement as well, so an integration of green manufacturing tools with FMS for creating more real and précised manufacturing system is done, that might be used to make improvements during production.
Keywords: Tools, Techniques, Green Manufacturing, FMS, Production, Automation
Kanchan D. Ganvir, Rakeshkumar Jain. Tools and Techniques of Green Manufacturing and FMS for Advanced Automation. Trends in Mechanical Engineering & Technology. 2023; ():-.
Kanchan D. Ganvir, Rakeshkumar Jain. Tools and Techniques of Green Manufacturing and FMS for Advanced Automation. Trends in Mechanical Engineering & Technology. 2023; ():-. Available from: https://journals.stmjournals.com/tmet/article=2023/view=91967
References
1. Sarkis J, Hasan MA, Shankar R. Evaluating Environmentally Conscious Manufacturing Barriers with Interpretive Structural Modelling, Proceedings of SPIE 6385, Environmentally Conscious Manufacturing VI, 638508 (October 11, 2006); doi:10.1117/12.687588.
2. Mittal VK, Sangwan KS. Development of an interpretive structural model of obstacles to environmentally conscious technology adoption in Indian industry. Glocalized Solutions for Sustainability in Manufacturing, Springer 2011, (Eds: Hesselbach and Herrmann), Germany.
3. Mukherjee DP. Barriers towards cleaner production for optimizing energy use and pollution control for foundry sector in Howrah, India, Clean Technologies and Environmental Policy, 2011; 13 (1): 111-123.
4. Schmitter DN. A study of the barriers to the implementation of environmentally responsible practices in Indiana manufacturing businesses. Master’s Thesis, Purdue University, West Lafayette, Indiana, 2012.
5. Millar HH, Russell SN. The Adoption of Sustainable Manufacturing Practices in the Caribbean, Business Strategy and the Environment, 2011; 20: 512-526.
6. Singh PJ, Mittal VK, and Sangwan KS. Development and validation of performance measures for environmentally conscious manufacturing, International Journal of Services and Operations Management, 2013; 14(2): 197220.
7. Post JE, Altma BW. Managing the Environmental Change Process: Barriers and Opportunities. Journal of Organizational Change Management 1994, 7(4):64–81.
8. Cooray N. Cleaner production assessment in small and medium industries of Sri Lanka, Global competitiveness through cleaner production: proceedings of the 2nd Asia Pacific Cleaner Production Roundtable, 21-23 April 1999, Brisbane, Australia/edited by J. Ashley Scott and Robert J. Pagan, 1999; 108-114.
9. Yan, H., Fei, L. and Jinlang, S. (2008) “A Framework of scheduling models in machining workshop for green manufacturing” Journal of Advanced Manufacturing Systems, Vol. 7, No. 2 pp.319–322.
10. I.D. Paula, G.P. Bhole and J.R. Chaudhari, “A review on Green Manufacturing: It’s important, Methodology and its Application”. 3rd International Conference on Materials Processing and Characterisation (ICMPC 2014) Procedia Materials Science 6 (2014 ) 1644–1649.
11. Moors EHM, Mulder KF, Vergragt PJ. Towards cleaner production: barriers and strategies in the base metals producing industry, Journal of Cleaner Production, 2005; 13(7): 657-668.
12. Porter, M.E. & Linde, C.V (1995). “Green and Competitive: Ending the Stalemate”. Harvard Business Review, 73(5), pp.120-133.
Trends in Mechanical Engineering & Technology
Volume | |
Received | 03/02/2021 |
Accepted | 19/06/2021 |
Published | 19/06/2023 |