Implementation of low carbon industrial symbiosis systems under financial constraint and environmental regulations: An evolutionary game approach

In the era of the sharing economy, the rise of production capacity sharing has changed traditional manufacturing modes and broken the balance of original production systems. In addition to that environmental-friendly manufacturing enterprises are of great significance with regard to production capacity sharing and sustainable development of the ecology environment. To investigate the decision-making behaviors of the participants involved in low-carbon production capacity sharing, an evolutionary game model taking into account the platforms, manufacturing enterprises with idle production capacity, and those with demanding production capacity is constructed. Then, both evolutionary game theory and Lyapunov stability theorem are used to analyze the asymptotic stability of the equilibrium and evolutionary stability strategies of the system. Besides, the economic and managerial significance of the evolutionary stability strategy is given. Finally, the influence of low-carbon production capacity of enterprises on the stability of the dynamic system is discussed, such as the cost effect of low-carbon production capacity, the effect of transaction cost, and so on. Results indicate that they can provide theoretical reference for decision-making with respect to the platforms, manufacturing enterprises, and sustainable development of the dynamic system.

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A Sectoral Eco-Efficiency Analysis on Urban-Industrial Symbiosis

Sustainability ◽

10.3390/su12093650 ◽

2020 ◽

Vol 12 (9) ◽

pp. 3650 ◽

Cited By ~ 2

Author(s):

Yuli Bian ◽

Liang Dong ◽

Zhaowen Liu ◽

Lezhu Zhang

Keyword(s):

Industrial Development ◽

Moderate Increase ◽

Industrial Symbiosis ◽

Low Carbon ◽

Economic Data ◽

Inventory Analysis ◽

Ecological Civilization ◽

Output Analysis ◽

Trade Offs ◽

Low Carbon City

Urban-industrial symbiosis (UIS) is an important system innovation via sectors integration, and has been widely recognized as a novel pathway for achieving regional eco-industrial development. Eco-efficiency, as a mature approach and indicator, offers an effective tool to uncover both the status and trends of such a transformation. However, most studies have focused on the whole industry or city as a whole, which has meant that a view from the sectoral level focusing on UIS was missing. To fill this research gap, this paper applied a modified eco-efficiency approach using integrating input–output analysis (IOA) and carbon footprint (CFP) to identify the eco-efficiency benefits of UIS from a sectoral level. Specifically, sector-level economic data (as economic outputs) and CFP (as environmental impacts) are used to calculate the sectoral eco-efficiency. IOA helps to offer sectoral economic data, and, with integrating process-based inventory analysis, to conduct a CFP calculation at the sectoral level. To test the feasibility of the developed approach, urban industrial symbiosis scenarios in one typical industrial city of China were analyzed. This city is held up as the national pilot of the circular economy, low-carbon city, and ecological civilization in China. Scenarios analysis on a business as usual (no UIS) and with UIS implementation in 2012 were undertaken and compared with the change of sectoral CFP and eco-efficiency. The results highlighted a moderate increase in eco-efficiency and trade-offs in certain sectors, indicating that UIS was moderately effective in increasing the urban resource efficiency from a sectoral level, but a refined design was required. Policy recommendations are made based on the analytical results, to inform decision makers and urban and industrial managers seeking to improve the implementation of UIS as a means of achieving greater urban sustainability.

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Notice of Retraction: The Evolutionary Game Analysis on the Technological Road Mapping of Low Carbon Economy within a Cluster

2010 International Conference on Management and Service Science ◽

10.1109/icmss.2010.5576957 ◽

2010 ◽

Author(s):

Guohong Wang ◽

Dapeng Chen

Keyword(s):

Evolutionary Game ◽

Low Carbon ◽

Game Analysis ◽

Low Carbon Economy ◽

Road Mapping ◽

Carbon Economy

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Analysis of optimal locations for power stations and their impact on industrial symbiosis planning under transition toward low-carbon power sector in Japan

Journal of Cleaner Production ◽

10.1016/j.jclepro.2015.09.079 ◽

2016 ◽

Vol 114 ◽

pp. 81-94 ◽

Cited By ~ 12

Author(s):

Hiroto Shiraki ◽

Shuichi Ashina ◽

Yasuko Kameyama ◽

Seiji Hashimoto ◽

Tsuyoshi Fujita

Keyword(s):

Industrial Symbiosis ◽

Low Carbon ◽

Power Sector ◽

Power Stations

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Evolutionary Game Analysis of Knowledge Sharing in Low-Carbon Innovation Network

Complexity ◽

10.1155/2021/9995344 ◽

2021 ◽

Vol 2021 ◽

pp. 1-11

Author(s):

Cuicui Zheng

Keyword(s):

Knowledge Sharing ◽

Evolutionary Game ◽

Network Evolution ◽

Laboratory Method ◽

Structure Model ◽

Low Carbon ◽

Collaborative Innovation ◽

Cooperation Network ◽

Low Carbon Technologies ◽

Evolution Game

Low-carbon technological innovation is the main means to develop a low-carbon economy, and network knowledge sharing and collaborative innovation is an effective model for the development of low-carbon technologies. First of all, this article adopts a decision-making experiment and evaluation laboratory method and interpretation structure model, combines the two methods, extracts the advantages of the two, and discards the shortcomings of the two, thus constructing a new optimized and upgraded interpretation structure model. We give methods to explore the main influencing factors of collaborative innovation of low-carbon technologies for online knowledge sharing. Based on the industrial network knowledge sharing and cooperation network environment, the network evolution game model of network knowledge sharing knowledge collaboration is constructed to study the rewards and punishments, the profit distribution rate, the knowledge potential difference, and the parameter pairing of the network knowledge sharing cooperation network structure in the process of network knowledge sharing and collaborative knowledge innovation. The influence of the network knowledge sharing cooperation strategy is obtained through simulation to change the size of the relevant parameters so that the network knowledge sharing cooperation agent chooses the network evolution game of the sharing strategy to realize the optimal evolutionary stable strategy. According to the simulation results, this article proposes suggestions from the following aspects, aiming to improve the overall knowledge synergy effect of the network knowledge sharing and cooperation network.

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Profit Distribution and Stability Analysis of Joint Distribution Alliance Based on Tripartite Evolutionary Game Theory Under the Background of Green and Low-Carbon

10.21203/rs.3.rs-660223/v1 ◽

2021 ◽

Author(s):

Renbin Han ◽

Mengke Yang

Keyword(s):

Information Disclosure ◽

Joint Distribution ◽

Evolutionary Game ◽

Game Model ◽

Low Carbon ◽

Environmental Benefit ◽

Logistics Industry ◽

Government Subsidies ◽

Profit Distribution ◽

The Government

Abstract Joint distribution is an advanced logistics organization model for improving the quality and efficiency of express logistics industry and achieve high-quality development of logistics, but the distribution of common profit has always been a key obstacle to the effective development of joint distribution. Based on the background of green and low-carbon, this paper explores a fairer and more reasonable profit distribution scheme. The profit game between the government and the two types of member enterprises is analyzed. By focusing on how the government plays a role in inducing the joint distribution alliance to bring the green and low-carbon requirements into the profit distribution, the strategy evolution process of the three parties, the factors affecting the profit distribution and the stability of alliance are discussed through the establishment of "government-member enterprise A-member enterprise B" tripartite evolutionary game model. Finally, the evolutionary game model is numerically simulated based on system dynamics. It is found that: (1) It is necessary for the government to guide and motivate the alliance to create internal incentives and constraints. The effect of government subsidies and rewards to member enterprises is greater than the penalties for member enterprises. (2) The member enterprises are likely to conspire together to defraud government subsidies and rewards, carry out "free riding" and other speculative activities, which makes it necessary for the government and the alliance to establish supervision mechanism, information disclosure mechanism, and property rights protection system. (3) The willingness of member enterprise to positively cooperate will increase with the increase of the additional benefit coefficient, the proportion of profit distribution and the importance of environmental benefit factor; and will decrease with the increase of the cost of promoting green distribution operations.

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Research on the Enterprise Safety and Low-Carbon Behaviors Management and Application Based on the Evolutionary Game

Advances in Intelligent Systems and Computing - Proceedings of the Tenth International Conference on Management Science and Engineering Management ◽

10.1007/978-981-10-1837-4_27 ◽

2016 ◽

pp. 307-318

Author(s):

Tao Zheng ◽

Wenke Wang ◽

Weiqian Dong ◽

Bin Yan ◽

Jinghua Gou

Keyword(s):

Evolutionary Game ◽

Low Carbon

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SEBARAN EMISI CO2 DAN IMPLIKASINYA TERHADAP PENATAAN RUANG AREA INDUSTRI DI KABUPATEN KENDAL

Jurnal Pengembangan Kota ◽

10.14710/jpk.6.2.164-173 ◽

2018 ◽

Vol 6 (2) ◽

pp. 164

Author(s):

Dina Labiba ◽

Wisnu Pradoto

Keyword(s):

Industrial Symbiosis ◽

Low Carbon ◽

Low Carbon City

Kabupaten Kendal adalah wilayah yang memiliki peran sebagai salah satu pusat aktivitas industri di Provinsi Jawa Tengah. Tujuan dari penelitian ini adalah untuk mengetahui sebaran sumber emisi CO2 dari sektor industri serta menganalisis faktor-faktor yang mempengaruhi pertumbuhan emisi tersebut sebagai dasar acuan dalam merumuskan implikasi kebijakan penataan ruang aktivitas industri di Kabupaten Kendal berdasarkan konsep low carbon city. Analisis dilakukan terhadap sembilan aktivitas industri skala besar yang besar tersebar pada tiga kecamatan di Kabupaten Kendal yaitu Kecamatan Kaliwungu, Boja dan Kangkung. Hasil dari analsisis terhadap kadar intensitas produksi emisi CO2 aktivitas industri menunjukkan bahwa industri PT. Sinar Bahari Agung di Kecamatan Kangkung memiliki menghasilkan emisi CO2 tertinggi. Sementara itu untuk hasil dari analisis potensi pertumbuhan pertumbuhan emisi CO2 dilihat dari faktor penghambat dan pemicu pertumbuhan emisi tersebut, menunjukkan bahwa hingga tahun 2031 pertumbuhan emisi CO2 sektor industri di Kabupaten Kendal akan terus mengalami peningkatan. Implikasi kebijakan penataan ruang yang dapat diterapkan adalah penambahan areal ruang terbuka hijau. Penambahan ruang terbuka hijau diprioritaskan pada aktivitas industri pada aktivitas industri PT. Sinar Bahari Agung dan PT. Rimba Partikel Indonesia. Selain itu, implikasi kebijakan lainnya yang dapat diterapkan ialah dengan membatasi pertumbuhan aktivitas industri di wilayah bagian selatan Kabupaten Kendal serta pengoptimalan pemanfaatan lahan industri dengan penerapan Industrial Symbiosis.

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