High Temperature, High Pressure, Carbon-Free Steam for Industrial Decarbonization
NuScale Steam Production Can Satisfy Key Industrial Applications
Heat application processes
0°C
300°C
Synthetic Fuels
Petroleum refining
Ammonia
Direct steelmaking manufacture
500°C
Thermochemical H, Production
Polymers
Methane reforming
District heating
Seawater desalination
Petrochemical
650°C
Shale and tar sands oil production
Pulp and paper production
900°C
Normal module output
Module + compression
Under evaluation
*Graphic adapted from "International Atomic Energy Agency, Opportunities for Cogeneration with Nuclear Energy, 2017, with additional data and input from industry
Accelerating power and heat generation
Generate 250 MWt of thermal power via superheated
steam (12-module generates 3 GWt)
■ Yield ~500K lbs. of steam/hour at 1500 psia/500°C
(2400 psia/650°C being evaluated)
Deploying solutions to new opportunities
Study with Shell Global to assess hydrogen production
using NuScale integrated system
DOE announced award with Oakridge National Lab to
perform study for major U.S. petrochemical with goal to
produce scalable process heat
Value from design advantages
Site boundary EPZ minimizes heat-loss from transport
process
■ NuScale Power Module not impacted by corrosion
from extremely high-temperatures
High Temperature, High Pressure, Carbon-Free Steam for Industrial Decarbonization
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