Advanced science.  Applied technology.

Search

Supercritical Carbon Dioxide Power Systems

Go to Supercritical Carbon Dioxide Power Systems

HOW CAN WE HELP YOU?

Supercritical carbon dioxide (sCO2) is carbon dioxide held above a critical temperature and pressure, which causes it to act like a gas while having the density of a liquid. It’s also nontoxic and nonflammable, having been used in dry cleaning processes as well as to decaffeinate coffee. Its supercritical state makes sCO2 a highly efficient fluid to generate power because small changes in temperature or pressure cause significant shifts in its density.

Southwest Research Institute is a leader in sCO2 power cycles, having received more than $119 million in funding to demonstrate the feasibility of the power cycle in addition to developing machinery to support it and addressing any further challenges that may arise from the widespread adoption of the technology. SwRI participates in the biannual Supercritical CO2 Power Cycles Symposium to advance sCO2 technology.

SwRI has collaborated with the U.S. Department of Energy on more than 20 projects related to sCO2 power cycles, which have been proven to be a source of cleaner and more efficient energy. Most power plants currently operating in the United States are more than 30 years old and operate below 35 percent efficiency, in addition to burning large amounts of fossil fuels that result in harmful greenhouse gas emissions.

Supercritical Transformational Electric Power (STEP)

SwRI is collaborating with a team to design, build, and operate a 10-MWe (megawatt electric) pilot plant for demonstrating supercritical carbon dioxide (sCO2) power cycles at our headquarters in San Antonio. Vist Supercritical Transformational Electric Power (STEP) to learn more. SwRI researchers are striving to make the idea of cleaner, cheaper power a reality by advancing power plant components that are smaller and therefore more cost-effective. sCO2 power cycles also offer the advantage of burning far fewer fossil fuels, reducing the harmful impact on the environment.

Benefits of sCO2 power cycles

Electricity is generated by converting resources such as hydrostatic pressure, sun, coal, natural gas or wind into electrical currents that result in the power we use in our daily lives. Most power plants in the U.S. are thermal conversion plants.

Most natural gas plants begin the process of generating power by first combusting natural gas, which results in hot gas pressure that turns a turbine. The spinning turbine connects to a generator, which in turn spins wire coils to create electricity. This is known as a Brayton cycle, whereas plants that replace the natural gas with steam are utilizing the Rankine cycle.

sCO2 power cycles replace water or natural gas with supercritical carbon dioxide. Benefits of this process include:

  • The supercritical state of sCO2 makes it a highly efficient fluid to generate power because small changes in temperature or pressure cause significant shifts in its density. Replacing steam or air with sCO2 as a thermal medium increases efficiency by as much as 10 percent.
  • sCO2 equipment is one tenth the size of conventional power plant components, providing the potential to shrink the environmental footprint as well as the construction cost of any new facilities, which will be significantly smaller than today’s power plants. For example, a desk-sized sCO2 turbine could power 10,000 homes.
  • sCO2 is a non-toxic working fluid with the ability to be applied to concentrated solar power, natural gas, coal, biomass, geothermal energy, nuclear energy, ship-board propulsion and waste heat recovery.