补贴
端口(电路理论)
斯塔克伯格竞赛
业务
供应链
环境经济学
公司治理
投资(军事)
碳排放税
产业组织
经济
财务
温室气体
微观经济学
营销
工程类
生态学
政治
政治学
法学
电气工程
市场经济
生物
作者
Zhaokun Li,Luteng Wang,G F Wang,Xu Xin,Kang Chen,Tao Zhang
标识
DOI:10.1016/j.ocecoaman.2023.106966
摘要
As governments attach importance to carbon neutrality, achieving carbon emission reductions in port operations through the use of subsidies and emerging technology has become a research hotspot. In this paper, we establish a three-stage Stackelberg game model to discuss stakeholders' strategies in a shipping supply chain consisting of the government, the port authority, and the shipping company. Low-carbon transportation preferences and the low-carbon trust of cargo owners in the port authority are included in our model. Four policy scenarios are created depending on whether the government adopts blockchain technology and two subsidy schemes, namely, a low-carbon technology subsidy scheme and a low-carbon quantity subsidy scheme, for ports. We find that i) the applicability of the two subsidy schemes varies with the low-carbon transportation preferences of cargo owners. ii) The low-carbon quantity scheme provides greater benefits to stakeholders compared to the low-carbon technology subsidy scheme. iii) A decrease in unit investment cost for port equipment upgrades leads to an increase in the total amount of subsidy. iv) The introduction of blockchain technology results in an increase in transportation demand, social welfare, and all stakeholders' profits. These findings enrich the theory of low-carbon port construction in the context of blockchain technology applications. They may also provide managerial insights into the government's low-carbon governance strategy and inform port authorities' low-carbon investment and pricing decisions.
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