Langley Gulch Power Plant, New Ply, Idaho
JDH Corrosion Consultants provided corrosion engineering services for underground utilities for Idaho Power who is currently building a 300-megawatt (MW) plant in Payette County, Idaho. This plant will be a clean, highly-efficient Power Plant with two turbines to generate electricity—one using natural gas and the other steam. The exhaust heat from the natural gas turbine is used to make steam which drives the steam turbine.
North Battleford Energy Centre, Saskatchewan, Canada
JDH Corrosion Consultants provided corrosion engineering services for underground utilities at the North Battleford Energy Centre which is being build in Rural Municipality of North Battleford, Saskatchewan. This plant will reportedly consist of a 170 megawatt General Electric gas turbine operating in “combined cycle” with a heat recovery steam generator (large boiler) producing steam for use in a steam turbine that will produce additional electricity for a total capacity of some 260 megawatts.
Thorold Cogeneration Project, Ontario, Canada
JDH Corrosion Consultants provided cathodic protection design services for various above grade storage tanks and underground utilities for the 305MW Thorold Cogeneration Project that was recently constructed in Thorold, Ontario, Canada. This is a natural gas-fired cogeneration facility that burns high- and low-pressure natural gas as well as landfill gas. This plant is located adjacent to a paper mill, and supplies an average of 236MW to the Ontario power grid, and electricity and steam to the paper mill for its newsprint manufacturing process.
Chouteau 2 Power Plant, Pryor, Oklahoma
JDH Corrosion Consultants provided corrosion engineering services for various above grade storage tanks and underground utilities for AECI’s Chouteau Power Plant. This plant is a combined-cycle, natural gas plant located in northeastern Oklahoma.
Moss Landing Power Plant, Moss Landing, California
JDH Corrosion Consultants provided cathodic protection design services for the condenser water boxes, traveling screens, intake structure and discharge pipelines for the new twin 530 MW, natural gas-fired, combined cycle, units. Each combined cycle unit consists of two natural gas fired combustion turbine generators (CTGs), two unfired heat recovery steam generators (HRSGs) and a reheat, condensing steam turbine generator (STG). Each combined cycle unit uses seawater for once-through cooling.