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Collaborative Vehicle-to-Grid Operations in Frequency Regulation Markets

Ho-Yin Mak () and Runyu Tang ()
Additional contact information
Ho-Yin Mak: McDonough School of Business, Georgetown University, Washington, DC 20057
Runyu Tang: School of Management, Xi’an Jiaotong University, Shaanxi 710049, China

Manufacturing & Service Operations Management, 2024, vol. 26, issue 3, 814-833

Abstract: Problem definition : We study the operations of electric vehicles (EVs) providing frequency regulation services to the electric grid in vehicle-to-grid (V2G) systems. In particular, individually owned EVs collaboratively bid in the regulation market, coordinated by a platform that operates the network of charging equipment. We study how the platform determines optimal pricing incentives for drivers to plug in their EVs, accounting for heterogeneous driving schedules. Methodology/results : We model the platform’s pricing optimization problem as a bilevel program: At the upper level, the platform determines hourly rebates for EV owners to plug in their EVs and capacity bids in the regulation market; at the lower level, individual travelers optimize their travel and charging schedules in response to pricing incentives. To account for uncertainties and heterogeneity in regulation market prices and travel patterns, we adopt distributionally robust optimization techniques to formulate the problem as a mixed-integer second-order cone program. We conduct a computational study based on the California Household Travel Survey data set and actual frequency regulation prices. Our results show that the ability to offer time-varying rebates and install workplace chargers can significantly improve the V2G platform’s expected profits. Managerial implications : As EV adoption progresses past the nascent stage, V2G business models become more viable. Successful implementation of V2G provides economic incentive for switching to EVs, potentially helps sustain adoption growth, and complements the growth of renewable power by helping stabilize the grid. Our findings shed light on the design of driver incentives for V2G systems.

Keywords: energy-related operations; environmental operations; logistics and transportation; math programming (search for similar items in EconPapers)
Date: 2024
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http://dx.doi.org/10.1287/msom.2022.0133 (application/pdf)

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