Combining Price and Quantity Controls under Partitioned Environmental Regulation

Author(s)

Abrell, J.; Rausch, S.

Abstract

This paper analyzes hybrid emissions trading systems (ETS) under partitioned environmental regulation when firms’ abatement costs and future emissions are uncertain. We show that hybrid policies that introduce bounds on the price or the quantity of abatement provide a way to hedge against differences in marginal abatement costs across partitions. Price bounds are more efficient than abatement bounds as they also use information on firms’ abatement technologies while abatement bounds can only address emissions uncertainty. Using a numerical stochastic optimization model with equilibrium constraints for the European carbon market, we find that introducing hybrid policies in EU ETS reduces expected excess abatement costs of achieving targeted emissions reductions under EU climate policy by up to 89 percent. We also find that under partitioned regulation there is a high likelihood for hybrid policies to yield sizeable ex-post cost reductions.

Date issued

2016-07

URI

http://hdl.handle.net/1721.1/111801

Publisher

MIT Joint Program on the Science and Policy of Global Change

Citation

Report 301

Series/Report no.

MIT Joint Program Report Series;301