New research from NuScale Power demonstrates the advanced capabilities of NuScale small modular reactors (SMRs) for reducing emissions in industrial sectors, which is critical to meeting global climate goals. Led by Co-Founder and Chief Technology Officer Dr. José Reyes, the benchmarked research found that NuScale SMRs have the potential for use in a wide variety of high-temperature industrial processes not previously envisioned using light water reactor (LWR) technology, such as heavy to light oil conversion, bulk plastic waste recycling, dissolving heavy oil to produce gasoline additives, and light plastics for the regeneration of products like synthesis gas.
NuScale’s research shows that the steam generated by a single NuScale Power Module™ can be compressed and heated to produce process steam at commercial scale, temperatures, and pressures. The lower steam temperatures and pressures from a LWR typically requires conditioning prior to injection into a high temperature/high pressure process. Dr. Reyes and team have found that a single NPM, generating 250 MWt, can produce >500,000 lb/hr of steam at 1,500 psia and 500ºC (932oF) with the potential to extend production to 2,400 psia and over 650ºC (1200oF).
“The compression heating systems we have proposed through this new research are an ideal application for NuScale’s VOYGR plants and could also broaden the role of LWRs in global decarbonization efforts,” said Dr. Reyes. “These new findings strengthen the use case for NuScale’s advanced SMR technology.”
NuScale will continue to explore the enhanced flexibility, reliability, and economics of multi-module steam generation that is augmented by cost-effective and high-efficiency steam compression and heating. NuScale is presently collaborating with end-users of steam, electric power, and hydrogen to assess and optimize Integrated Energy Systems, with plans to support industry clean energy goals at a commercial scale.
The findings are underscored by NuScale’s unparalleled safety features that enable VOYGR plants to operate both off-grid and to achieve a site boundary Emergency Planning Zone for most U.S. plant locations. VOYGR plants can be located closer to end-users, which reduces heat losses due to steam transport and results in a higher efficiency industrial energy system.
SOURCE: Businesswire