Abstract
For reliving the pressure of air pollution and corresponding the sustainability development policy in China, the companies are urging the creation of a highly productive low-carbon supply chain. This work uses price regulation, the cap-and-trade model, and a green financial policy background to establish a strategy for the coal–electric power supply chain with two-level carbon reduction and operation with financial constraints. A Stackelberg model was built to help investigate the rate of thermal order realization, the carbon reduction strategy in the coal enterprise, and the amount of thermal energy ordered in the electric enterprise. Results show that under a green financial background, a high bank loan discount rate for investing in carbon reduction technology equates to large carbon reduction in coal enterprises, large quantities of thermal energy ordered in electric enterprises, and high profit for coal and electric enterprises. However, the realization rate of thermal power ordered decreased when the price regulation become strict, thereby reducing the profit and carbon emission in electric enterprise. Therefore, the thermal price regulation level increased, the profit on both company and the production did not respond with sensitivity, and the government could encourage a low carbon model by controlling the bank loan rate.
Highlights
The supply chain is a service commercial model which could achieve cooperation of development and inner system management
This study focuses on the coal–electric supply chain which is built for low carbon systems, considering that two-side companies could have the optimal profits
Under the green financial background, an enterprise in the coal–electric power supply chain has a discount in interest rate when it invests in carbon emission reduction via technology
Summary
The supply chain is a service commercial model which could achieve cooperation of development and inner system management. Exploration of novel green resources can increase the electric power generation efficiency continually, and carbon emission reduction via technology and reformation can produce ideal results [6]. This study uses the reverse induction of the Stackelberg model game theory, a productive leading model; it selects the coal enterprise as the starting point, builds two-stage equilibrium, and decides on the quantity and price of carbon reduction in China. This model hypothesis that, the manufacturer 1 decides their quantity of product, and manufacturer 2 makes their quantity decision after knowing manufacturer 1’s decision.
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