WSAC® general information
WSAC® case studies
- NB-WSAC-CS-08 Hydrocarbon cooler
- NB-WSAC-CS-09 Wastewater cooler
- NB-WSAC-CS-09A Wastewater cooler additional information
- NB-WSAC-CS-12 Wastewater cooler
- NB-WSAC-CS-12A Wastewater cooler additional information
- NB-WSAC-CS-13 Turbine fluid cooler
- NB-WSAC-CS-14 Vapor condenser
- NB-WSAC-CS-15 Aux loop cooler
- NB-WSAC-CS-16 Gasoline cooler
- NB-WSAC-CS-18 Vapor condenser
- NB-WSAC-CS-24 Vapor recovery
- NB-WSAC-CS-35 Box cooler
- NB-WSAC-CS-37 Wastewater cooler
- NB-WSAC-CS-39 Propylene condenser
- NB-WSAC-CS-42 Steam condenser
- NB-WSAC-CS-43 Methanol condenser
- NB-WSAC-CS-44 Wastewater cooler
- NB-WSAC-CS-45 Hybrid cooler
- NB-WSAC-CS-46 Compressed gas cooler
- NB-WSAC-CS-47 Green wastewater cooler
- NB-WSAC-CS-48 Well injection CO2 coolers
- NB-WSAC-CS-49 Gas compressor station
- NB-WSAC-CS-50 Improved efficiency gas processing
- NB-WSAC-CS-50A Improved efficiency gas processing benefits
- NB-WSAC-CS-50B Improved efficiency gas processing benefits
- NB-WSAC-CS-52 Propane condenser
- NB-WSAC-CS-53 Poor quality water use
- NB-WSAC-CS-54 Glycol cooler-mining
WSAC® application studies
- NB-WSAC-AS-21 Reduce H20 consumption-power plant
- NB-WSAC-AS-23 Power plant de-bottlenecking
- NB-WSAC-AS-25 Efficiently cool or condense
- NB-WSAC-AS-31A Aux loop cooler
- NB-WSAC-AS-32 WSAC vs air cooled HX
- NB-WSAC-AS-38 Prevent hydrocarbon leaks
- NB-WSAC-AS-39 Flow diagram NGL fractionation
- NB-WSAC-AS-40 Wastewater evaporation
- NB-WSAC-AS-41 Water saving
- NB-WSAC-AS-51 Reduce H20 consumption
- NB-WSAC-AS-55 FRP modular
- NB-WSAC-AS-56 Mud cooler
FAQ sheet