Litcius/Paper detail

Using flexible energy system interactions amongst industry, district heating, and the power sector to increase renewable energy penetration

Igor Cruz, Danica Djurić Ilić, Maria Johansson

2023Energy Efficiency14 citationsDOIOpen Access PDF

Abstract

Abstract Sweden’s goal of 100% renewable electricity generation by 2040 requires investments in intermittent electricity production (e.g. wind power). However, increasing the share of intermittent electricity production presents challenges, including reduced flexibility of electricity production. A strategy for overcoming this issue is developing flexibility in electricity consumption. This study analyses the potential for using flexible industrial processes, heat pumps (HP), and combined heat and power (CHP) plants in Swedish district heating systems to increase the share of wind power capacity without compromising grid stability. The simulation tool EnergyPLAN was used to assess the potential contribution of these strategies. The analysis includes a range of annual wind power production between 45 and 60 TWh. The required electricity imports and critical excess electricity (that can neither be used nor exported due to transmission line limitations) were used to evaluate the system’s stability. Managing the operation of CHP plants, HPs, and industrial processes in a flexible way is challenging, but these strategies may still play a decisive role in increasing the share of renewable electricity production and reducing demand peaks in cities. Whilst HP regulation is better at reducing excess electricity production at lower wind power capacities (from 32 to 15% for the analysed interval of wind power production), CHP regulation becomes more relevant when wind power capacity increases (from 14 to 39%). Like HP regulation, flexibility in electricity demand in industrial processes had a greater percentage contribution at lower wind power capacities. Combining HP, CHP regulation, and flexible electricity demands in industry can reduce excess electricity production by 68–80% and electricity imports by 14–26%. Wind power contributing to grid stabilisation reduces excess electricity production but does not reduce electricity imports.

Topics & Concepts

Renewable energyElectricityWind powerStand-alone power systemFlexibility (engineering)Electricity generationEnvironmental economicsElectricity retailingProduction (economics)Electric power systemElectric power industryBusinessNatural resource economicsEnvironmental scienceDistributed generationElectricity marketEngineeringPower (physics)EconomicsElectrical engineeringMicroeconomicsPhysicsQuantum mechanicsManagementIntegrated Energy Systems OptimizationBuilding Energy and Comfort OptimizationRenewable Energy and Sustainability