4th North American International Conference on Industrial Engineering and Operations Management

An Optimization Strategy for Managing Surplus Electricity through P2G Pathways

Azadeh Maroufmashat, Michael Fowler, Ali ElKamel, Lingyi Gu, Jeeyoung Kim & Joohyung ko
Publisher: IEOM Society International
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Track: Energy
Abstract

Ontario has a high dependency on nuclear and renewable energy, with more than 85% of its electricity supplied from non-carbon-based sources. Due to the intermittency and inflexibility of the generators, surplus electricity (SBG) is generated when supply exceeds demand. This paper aims to develop a mathematical model for power-to-gas (P2G) energy system, converting SBG into hydrogen to be used by end-users. The four end-users studied were renewable natural gas sector (RNG), hydrogen-enriched natural gas sector (HENG), mobility sector and industry sector. Two scenarios were considered for the model: Scenario 1, where a single pathway was considered for implementation and Scenario 2, where the four pathways were integrated into one system for a combined installment. The objective of this model is to minimize the total cost and maximize emission offset with a lifetime of 20 years. The modelling and optimization were carried out in Python using mixed integer linear programming (MILP) based approach. The Scenario 1 results showed that replacing industry feedstock by hydrogen is more cost-efficient than other sectors. The Scenario 2 results showed that the system can reduce 470,595 tonnes of CO2 per year, which is 95% of the maximum achievable offset and utilize 57% of the surplus electricity.

Published in: 4th North American International Conference on Industrial Engineering and Operations Management, Toronto, Canada

Publisher: IEOM Society International
Date of Conference: October 25-27, 2019

ISBN: 978-1-5323-5950-7
ISSN/E-ISSN: 2169-8767