Journal of Industrial and Management Optimization (JIMO)

Joint decision on pricing and waste emission level in industrial symbiosis chain
Page number are going to be assigned later 2017

doi:10.3934/jimo.2017040      Abstract        References        Full text (631.7K)      

Binbin Cao - School of Management, Xi'an Jiaotong University, The Key Lab of the Ministry of Education for Process Control & Eciency Engineering, Xi'an, Shaanxi 710049, China (email)
Zhongdong Xiao - School of Management, Xi'an Jiaotong University, The Key Lab of the Ministry of Education for Process Control & Eciency Engineering, Xi'an, Shaanxi 710049, China (email)
Xiaojun Li - School of Management, Xi'an Jiaotong University, Xi'an, Shaanxi 710049, China (email)

1 A. Choudhary, R. Suman, V. Dixit, M. K. Tiwari, K. J. Fernandes and P. C. Chang, An optimization model for a monopolistic firm serving an environmentally conscious market: Use of chemical reaction optimization algorithm, International Journal of Production Economics, 164 (2015), 409-420.
2 P. Bansal and B. McKnight, Looking forward, pushing back and peering sideways: Analyzing the sustainability of industrial symbiosis, Journal of Supply Chain Management, 45 (2009), 26-37.
3 B. Yalabik and R. J. Fairchild, Customer, regulatory, and competitive pressure as drivers of environmental innovation, International Journal of Production Economics, 131 (2011), 519-527.
4 S. Benjaafar, Y. Li and M. Daskin, Carbon footprint and the management of supply chains: Insights from simple models, IEEE Transactions on Automation Science and Engineering, 10 (2013), 99-116.
5 B. M. Sopha, A. M. Fet, M. M. Keitsch and C. Haskins, Using systems engineering to create a framework for evaluating industrial symbiosis, Systems Engineering, 13 (2010), 149-160.
6 B. Kim and J. E. Sim, Impacts of government and market on firm's efforts to reduce pollution, Cogent Economics & Finance, 3 (2015), 1062634.
7 K. K. Boyer, A. M. Prud'homme and W. Chung, The last mile challenge: evaluating the effects of customer density and delivery window patterns, Journal of Business Logistics, 30 (2009), 185-202.
8 C. L. Chen, Design for the environment: A quality-based model for green product development, Management Science, 47 (2001), 250-263.
9 C. L. Chen and G. E. Monahan, Environmental safety stock: The impacts of regulatory and voluntary control policies on production planning, inventory control, and environmental performance, European Journal of Operational Research, 207 (2010), 1280-1292.
10 C.-C. Hsu, K. C. Tan, S. H. M. Zailani and V. Jayaraman, Supply chain drivers that foster the development of green initiatives in an emerging economy, International Journal of Operations & Production Management, 33 (2013), 656-688.
11 C. J. Corbett and R. D. Klassen, Extending the horizons: Environmental excellence as key to improving operations, Manufacturing & Service Operations Management, 8 (2006), 5-22.
12 D. Lee, Turning waste into by-product, Manufacturing & Service Operations Management, 14 (2012), 115-127.
13 C. Ding, K. H. Wang and S. Y. Lai, Channel coordination mechanism with retailers having fairness preference-An improved quantity discount mechanism, Journal of Industrial and Management Optimization, 9 (2013), 967-982.
14 S. F. Du, L. Hu and L. Wang, Low-carbon supply policies and supply chain performance with carbon concerned demand, Annals of Operations Research, (2015), 1-22.
15 G. Herczeg, R. Akkerman and M. Z. Hauschild, Supply chain coordination in industrial symbiosis, Proceedings of the 20th International EurOMA Conference, June 7-12, Dublin, Ireland, (2013), paper SCM-19.
16 B. C. Giri and S. Bardhan, Coordinating a two-echelon supply chain with environmentally aware consumers, International Journal of Management Science and Engineering Management, 11 (2015), 178-185.
17 N. Hamza and D. Greenwood, Energy conservation regulations: Impacts on design and procurement flow energy buildings, Build Environment, 44 (2009), 929-936.
18 S. L. Hart, A natural-resource-based view of the firm, Academy of Management Review, 20 (1995), 986-1014.
19 A. J. Hoffman and M. H. Bazerman, Changing environmental practice: Understanding and overcoming the organizational and psychological barriers, Harvard Business School Working Paper, (2005), 5-43.
20 X. P. Hong, Z. J. Wang, D. Z. Wang and H. G. Zhang, Decision models of closed-loop supply chain with remanufacturing under hybrid dual-channel collection, International Journal of Advance Manufacture Technology, 68 (2013), 1851-1865.
21 M. Huang, M. Song, L. H. Lee and W. K. Ching, Analysis for strategy of closed-loop supply chain with dual recycling channel, International Journal of Production Economics, 144 (2013), 510-520.
22 V. Jayaraman, R. Klassen and J. D. Linton, Supply chain management in a sustainable environment, Journal of Operations Management, 25 (2007), 1071-1074.
23 J. K. Stranlund and L. J. Moffitt, Enforcement and price controls in emissions trading, Journal of Environmental Economics and Management, 67 (2014), 20-38.
24 J. R. Duflou, J. W. Sutherland, D. Dornfeld, C. Herrmann, J. Jeswiet, S. Kara, M. Hauschild and K. Kellens, Towards energy and resource efficient manufacturing: A process and system approach, CIRP Annals-Manufacturing Technology, 61 (2012), 587-609.
25 J. M. Cruz, Dynamics of supply chain networks with corporate social responsibility through integrated environmental decision making, European Journal of Operational Research, 184 (2008), 1005-1031.
26 J. D. Linton, R. Klassen and V. Jayaraman, Sustainable supply chains: An introduction, Journal of Operations Management, 25 (2007), 1075-1082.
27 Z. L. Liu, T. D. Anderson and J. M. Cruz, Consumer environmental awareness and competition in two-stage supply chains, European Journal of Operational Research, 218 (2012), 602-613.
28 M. Kurdve, S. Shahbazi, M. Wendin, C. Bengtsson and M. Wiktorsson, Waste flow mapping to improve sustainability of waste management: A case study approach, Journal of Cleaner Production, 98 (2015), 304-315.
29 M. Y. Jaber, C. H. Glock and A. M. A. El Saadany, Supply chain coordination with emissions reduction incentives, International Journal of Production Research, 51 (2013), 69-82.
30 W. Moon, W. J. Florkowski, B. Brückner and I. Schonhof, Willingness to pay for environmental practices: Implications for eco-labeling, Land Economics, 78 (2002), 88-102.
31 S. Muthulingam, C. J. Corbett, S. Benartzi and B. Oppenheim, Managerial biases and energy savings: An empirical analysis of the adoption of process improvement recommendations, UCLA Anderson School of Management Working Paper, (2009).
32 N. Murovec, R. S. Erker and I. Prodan, Determinants of environmental investments: Testing the structural model, Journal of Cleaner Production, 37 (2012), 265-277.
33 M. Pagell and Z. Wu, Building a more complete theory of sustainable supply chain management using case studies of 10 exemplars, Journal of Supply Chain Management, 45 (2009), 37-56.
34 K. Palmer, W. E. Oates and P. R. Portney, Tightening environmental standards: The benefit-cost or the no-cost paradigm?, Journal of Economic Perspectives, 9 (1995), 119-133.
35 R. L. Paquin and J. Howard-Grenville, Blind dates and arranged marriages: Longitudinal processes of network orchestration, Organization Studies, 34 (2013), 1623-1653.
36 C. C. Poirier, M. L. Swink and F. J. Quinn, Sixth annual global survey of supply chain progress: Still chasing the leaders, Supply Chain Management Review, 12 (2008), 26-32.
37 D. Popp, Lessons from patents: Using patents to measure technological change in environmental models, Ecological Economics, 54 (2005), 209-226.
38 A. Robotis, T. Boyaci and V. Verter, Investing in reusability of products of uncertain remanufacturing cost: The role of inspection capabilities, International Journal of Production Economics, 140 (2012), 385-395.
39 S. Patala, S. Hämäläinen, A. Jalkala and H.-L. Pesonen, Towards a broader perspective on the forms of eco-industrial networks, Journal of Cleaner Production, 82 (2014), 166-178.
40 J. Sarkis, Q. Zhu and K.-H. Lai, An organizational theoretic review of green supply chain management literature, International Journal of Production Economics, 130 (2011), 1-15.
41 I. Schumacher, Ecolabeling, consumers' preferences and taxation, Ecological Economics, 69 (2010), 2202-2212.
42 S. Seuring, Integrated chain management and supply chain management comparative analysis and illustrative cases, Journal of Cleaner Production, 12 (2004), 1059-1071.
43 S. Zanoni, L. Mazzoldi and M. Y. Jaber, Vendor-managed inventory with consignment stock agreement for single vendor-single buyer under the emission-trading scheme, International Journal of Production Research, 52 (2014), 20-31.
44 B. Sundarakani, R. de Souza, M. Goh, S. M. Wagner and S. Manikandan, Modeling carbon footprints across the supply chain, International Journal of Production Economics, 128 (2010), 43-50.
45 A. Toptal, H. Özlü and D. Konur, Joint decisions on inventory replenishment and emission reduction investment under different emission regulations, International Journal of Production Research, 52 (2014), 243-269.
46 G. T. Tsoulfas and C. P. Pappis, Environmental principles applicable to supply chains design and operation, Journal of Cleaner Production, 14 (2006), 1593-1602.
47 P. Windrum, T. Ciarli and C. Birchenhall, Environmental impact, quality, and price: Consumer trade-offs and the development of environmentally friendly technologies, Technological Forecasting and Social Change, 76 (2009), 552-566.
48 C.-H. Wu, Price and service competition between new and remanufactured products in a two-echelon supply chain, International Journal of Production Economics, 140 (2012), 496-507.
49 J. M. Yu and M. L. Mallory, An optimal hybrid emission control system in a multiple compliance period model, Resource and Energy Economics, 39 (2015), 16-28.
50 Z. D. Xiao, B. B. Cao, J. N. Sun and G. H. Zhou, Culture of the stability in an eco-industrial system centered on complex network theory, Journal of Cleaner Production, 113 (2016), 730-742.
51 G. Xie, Modeling decision processes of a green supply chain with regulation on energy saving level, Computers and Operations Research, 54 (2015), 266-273.
52 G. Xie, Cooperative strategies for sustainability in a decentralized supply chain with competing suppliers, Journal of Cleaner Production, 113 (2016), 807-821.
53 G. Xie, W. Y. Yue and S. Y. Wang, Optimal selection of cleaner products in a green supply chain with risk aversion, Journal of Industrial and Management Optimization, 11 (2015), 515-528.
54 A. Z. Zeng, Coordination mechanisms for a three-stage reverse supply chain to increase profitable returns, Naval Research Logistics, 60 (2013), 31-45.
55 Q. Zhang, W. S. Tang and J. X. Zhang, Green supply chain performance with cost learning and operational inefficiency effects, Journal of Cleaner Production, 112 (2016), 3267-3284.

Go to top