Litcius/Paper detail

Hybrid-energy approach enabled by heat storage and oxy-combustion to generate electricity with near-zero or negative CO2 emissions

Thomas A. Buscheck, R.S. Upadhye

2021Energy Conversion and Management15 citationsDOIOpen Access PDF

Abstract

We assess a hybrid-energy approach that modifies a steam-turbine power plant to use renewable energy sources (electricity, plus options for geothermal and solar heat), plus fossil fuel (natural gas and coal) and/or waste biomass (e.g., Douglas fir woodchips). Heat storage allows heat to be created during periods of excess energy supply and for that heat to be converted to electricity when demanded. Excess electricity, such as from variable renewable energy (VRE), is used to generate oxygen for oxy-combustion furnaces that create very-hot, high-purity CO 2 that heats granular rock beds in insulated vessels. Cool CO 2 leaving the beds is dried, sent to compressors powered by excess VRE electricity, before being sent by pipeline to geologic CO 2 storage. Very-hot CO 2 transfers high-grade heat from storage to the power plant in a closed loop that returns medium-grade heat back to storage, allowing low- and medium-grade renewable-heat sources to be stacked beneath combustion heat, with all heat sources being converted to electricity at the same (high) thermal efficiency. Reliable, on-demand power may be generated with near-zero CO 2 emissions with fossil fuel and with negative CO 2 emissions with waste biomass. Our analyses show that with fossil fuel, up to 35% of gross power can be derived from renewable sources, while for waste biomass, it can be entirely derived from renewable sources. Because our approach has the potential to ensure that grids have a continuous supply of clean energy and because electricity is only generated once, when demanded, it could serve as an efficient alternative to bulk energy storage.

Topics & Concepts

Zero emissionElectricityCombustionEnvironmental scienceEnergy storageWaste managementThermal energy storageZero (linguistics)Electricity generationZero-energy buildingProcess engineeringNuclear engineeringChemistryRenewable energyEngineeringThermodynamicsPower (physics)PhysicsElectrical engineeringOrganic chemistryPhilosophyLinguisticsCO2 Sequestration and Geologic InteractionsGeothermal Energy Systems and ApplicationsCarbon Dioxide Capture Technologies