Optimal Dynamic Regulation of Carbon Emissions Market: A Variational Approach

Political Economy - Development: Environment eJournal Pub Date : 2021-02-24 DOI:10.2139/ssrn.3792384

R. Aïd, Sara Biagini

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引用次数: 4

Abstract

We consider the problem of reducing the carbon emissions of a set of firms over a finite horizon. A regulator dynamically allocates emission allowances to each firm. Firms face idiosyncratic as well as common economic shocks on emissions, and have linear quadratic abatement costs. Firms can trade allowances so to minimise total expected costs, from abatement and trading plus a quadratic terminal penalty. Using variational methods, we exhibit in closed-form the market equilibrium in function of regulator's dynamic allocation. We then solve the Stackelberg game between the regulator and the firms. Again, we obtain a closed-form expression of the dynamic allocation policies that allow a desired expected emission reduction. Optimal policies are not unique but share common properties. Surprisingly, all optimal policies induce a constant abatement effort and a constant price of allowances. Dynamic allocations outperform static ones because of adjustment costs and uncertainty, in particular given the presence of common shocks. Our results are robust to some extensions, like risk aversion of firms or different penalty functions.

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碳排放市场的最优动态调控:一个变分方法

我们考虑在有限范围内减少一组公司的碳排放的问题。监管者动态地为每个企业分配排放配额。企业在排放方面既面临着特殊的经济冲击，也面临着共同的经济冲击，并且有线性二次型的减排成本。企业可以交易配额，以最小化总预期成本，从减排和交易加上二次终端罚款。利用变分方法，我们以封闭形式展示了市场均衡对监管者动态配置的函数。然后我们解决了监管者和公司之间的Stackelberg博弈。再次，我们得到了动态分配政策的封闭形式表达式，该表达式允许期望的预期减排。最优策略不是唯一的，而是具有共同的属性。令人惊讶的是，所有最优政策都会导致持续的减排努力和固定的配额价格。由于调整成本和不确定性，特别是在存在共同冲击的情况下，动态配置优于静态配置。我们的结果对于企业风险规避或不同惩罚函数等扩展具有鲁棒性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Political Economy - Development: Environment eJournal

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