Abstract
The increased interdependencies between electricity and gas systems driven by gas-fired power plants and gas electricity-driven compressors necessitates detailed investigation of such interdependencies, especially in the context of an increased share of renewable energy sources. In this paper, the value of an integrated approach for operating gas and electricity systems is assessed. An outer approximation with equality relaxation (OA/ER) method is used to deal with the optimization class of the mixed-integer non-linear problem of the integrated operation of gas and electricity systems. This method significantly improved the efficiency of the solution algorithm and achieved a nearly 40% reduction in computation time compared to successive linear programming. The value of flexibility technologies, including flexible gas compressors, demand-side response, battery storage, and power-to-gas, is quantified in the operation of integrated gas and electricity systems in GB 2030 energy scenarios for different renewable generation penetration levels. The modeling demonstrates that the flexibility options will enable significant cost savings in the annual operational costs of gas and electricity systems (up to 21%). On the other hand, the analysis carried out indicates that deployment of flexibility technologies appropriately supports the interaction between gas and electricity systems.
Highlights
The share of variable Renewable Energy Sources (RES) in the power generation mix is increasing significantly in Great Britain (GB) to meet de-carbonization targets (National Grid Plc, 2016)
The employment of the outer approximation with equality relaxation (OA/ER) decomposition method significantly improved the efficiency of the solution algorithm, achieving a nearly 40% reduction in the computation time compared to the Successive Linear Programming (SLP) method
The modeling indicates that significant cost savings and corresponding emissions reduction can be achieved through enhancing the flexibility of the gas infrastructure
Summary
The share of variable Renewable Energy Sources (RES) in the power generation mix is increasing significantly in Great Britain (GB) to meet de-carbonization targets (National Grid Plc, 2016). Demand-Side Response (DSR), power-to-gas (P2G), and flexible compressors can enhance the system flexibility needed to support more cost-effective balancing of electricity demand and supply. These options can participate in the provision of various ancillary services, including reserve and frequency regulation (Qadrdan et al, 2017b). Flexible gas compressors improve gas delivery to the demand centers through changing the gas flow direction Several studies, such as Troy et al (2012) and Pudjianto et al (2014), have evaluated the role of flexibility options in addressing the electricity balancing challenges caused by RES
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