MODEL PERSEDIAAN PADA SUPPLY CHAIN DENGAN MEMPERTIMBANGKAN EMISI KARBON DAN PERMINTAAN YANG BERGANTUNG PADA HARGA JUAL PRODUK
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Abstract
Emission from manufacturing contributes greatly to the increasing og greenhouse gas pollution. One of the activity in manufacturing is the supply chain. To deal with the risk of carbon emission, it is necessary to carry out green supply chain management, which is by implementing hybrid production, by regular production and green production. A company needs to consider the tradeoff between the use of green technology and the benefits that will be obtained. This research was conducted to form a supply chain inventory model by considering carbon policies and productselling price to maximize the joint total profit. The development of this model is carried by set the assumptions, formulating models, and gave the numerical examples by using secondary data. We used algorithm from the formulation model to find the optimal solution. The research is continued with a sensitivity analysis of the proposed scenarios by changing some of the parameter. This sensitivity analysis can be used as a consideration for a manager in making decisions according to those scenarios. The results of this study are the addition of green production facility is proven to reduce carbon emission by considering product selling price, lot size, number of shipping, and safety factor.
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References
International Energy Agency, Global CO2 emissions rebounded to their highest level in history in 2021, March 2022. https://www.iea.org/news/global-co2-emissionsrebounded-to-their-highest-level-in-history-in-2021
Customer Data Platform, “Transparency to Transformation: A Chain Reaction”, 2022. [Online]. Available: https:// https://www.cdp.net// [Accessed May. 30, 2023].
A. Ghosh, J.K. Jha, and S.P. Sarmah, "Optimal Lot-Sizing Under Strict Carbon Cap Policy Considering Stochastic Demand," Applied Mathematical Modelling, Vol. 44, pp. 688-704, 2017.
I. D. Paul, G. P. Bhole, J. R. Chaudhari, "A Review on Green Manufacturing: It's Important, Methodology and its Application," Procedia Materials Science, Vol. 6, pp. 1644-1649, 2014.
U. Mishra, J. Z. Wu, and B. Sarkar, "A Sustainable Production-Inventory Model for a Controllable Carbon Emissions Rate Under Shortages," Journal of Cleaner Production, Vol. 256, No. 20, 2020.
W. A. Jauhari, I. N. Pujawan, M. Suef, and K. Govindan, "Low Carbon Inventory Model for Vendor‒Buyer System with Hybrid Production and Adjustable Production Rate Under Stochastic Demand," Applied Mathematical Modelling, Vol. 108, pp. 840-868, 2022.
T. P. Varela, A. P. F.D. Barbosa-Póvoa, and A. Q. Novais, "Supply Chain Design and Planning with Environmental Impacts: An RTN approach," Computer Aided Chemical Engineering, Vol. 29, pp. 1155-1159, 2011.
R. S. Pindyck, and D. L. Rubinfeld, Microeconomics 8th Editions, 2013. Available: https://www.myeconlab.com
T. Hadi, S. K. Chaharsooghi, M. Sheikhmohammady, and A. Hafezalkotob, "Pricing Strategy for a Green Supply Chain with Hybrid Production Modes Under Government Intervention," Journal of Cleaner Production, Vol. 268, No. 20, 2020.
S. Sarkar, N. M. Modak, B. C. Giri, A. Kr. Sarkar, and L. E. C. Barrón, "Coordinating a Supplier–Retailer JELS Model Considering Product Quality Assessment and Green Retailing," Journal of Cleaner Production, Vol. 356, No. 1, 2022.
Kadin Net Zero Hub, “Industri Fashion Global Menuju Rendah Emisi Karbon para. 7, Sept 22, 2022. [Online]. Available: https://netzerohub.id/ [Accessed May. 30, 2023].
G. Hua, T.C.E. Cheng, and S. Wang, "Managing Carbon Footprints in Inventory Management," International Journal of Production Economics, Vol. 132, No. 2 pp. 178-185, 2011.
M. Y. Jaber, C. H. Glock, and A. M. A. El Saadany, "Supply Chain Coordination with Emissions Reduction Incentives," International Journal of Production Research, Vol. 51, No. 1, pp. 69-82, 2013.
J. M. C. Martí, J. S. Tancrez, and R. W. Seifert, "Carbon Footprint and Responsiveness Trade-offs in Supply Chain Network Design," International Journal of Production Economics, Vol. 166, pp. 129-142, 2015.
G. X. Lou, H. Y. Xia, J. Q. Zhang and T. J. Fan, "Investment Strategy of EmissionReduction Technology in a Supply Chain," Sustainability, Vol. 7, No. 8, 2015.
A. Sepehri, "Controllable carbon emissions in an inventory model for perishable items under trade credit policy for credit-risk customers," Carbon Capture Science & Technology, Vol. 1, 2021.
M. K. Sarakhsi, S.M.T. F. Ghomi, and B. Karimi, "Joint Economic Lot-Sizing Problem for a Two-Stage Supply Chain with Price-Sensitive Demand," Scientia Iranica, Vol. 23, No. 3, pp. 1474-1487, 2016.
W. A. Jauhari, N. A. F. P. Adam, C. N. Rosyidi, I. N. Pujawan, and N. H. Shah, "A Closed-Loop Supply Chain Model with Rework, Waste Disposal, and Carbon Emissions," Operations Research Perspectives, Vol. 7, 2020.