-
FEED of Svante’s CO2 capture process for Suncor’s Fluid Catalytic Cracker
This project contemplates the use of Svante’s adsorption technology to capture CO2 from the flue gas stream of the Fluid Catalytic Cracking Unit (FCCU) at Suncor’s Edmonton refinery. The project focuses on a Front End Engineering Design (FEED) study which includes evaluating the engineering associated with the CO2 capture plant and transportation system. If constructed,…
-
Lehigh Edmonton Alternative Low Carbon Fuel Project
Lehigh Hanson (Lehigh) operates a portland cement manufacturing plant in Edmonton. Lehigh currently uses coal and natural gas to fire a rotary kiln at the Edmonton plant to convert limestone, clay, and other minerals into clinker, the precursor to portland cement. Portland cement is used to make concrete, the most common building material in the…
-
Linde LNG Low Carbon Fuels Demonstration Project
This demonstration project will deliver LNG to Alberta customers with a wells to wheels carbon intensity of under 62 g CO2 e/MJ in comparison to diesel fuel with a Canadian average carbon intensity of 100 g CO2e/MJ. The project is aligned with the objectives of the new Canadian Clean Fuel Standard and reduced carbon taxes…
-
Nutrien Redwater Carbon Capture Study
Nutrien is the world’s largest provider of crop inputs and services, growing our world from the ground up, and raising expectations of what an agriculture company can be. In support of our sustainability and emission reduction goals, Nutrien has proposed a Study to assess the technological feasibility, develop the preliminary engineering, and create the overall…
-
GHG Saving and Internationally Scalable Ultra High Recovery Industrial Wastewater Treatment at an Albertan Agri-Chem Facility
This project will advance a full-scale, permanently installed plant at Nutrien’s nitrogen fertilizer production facility in Carseland, Alberta, to treat cooling tower blowdown (CTB). Nutrien is investigating treating it for re-use, thereby reducing Bow River water withdrawal. The technology will also help reduce greenhouse gas emissions by allowing producers of agricultural and industrial wastewater to…
-
New Edmonton Blue Hydrogen Hub
Edmonton Blue Hydrogen Hub for developing the hydrogen economy with low carbon intensity product.
-
Development and Field Testing of a Tri-Generation Pyrolysis (TGP) System for Low-cost, Clean Hydrogen Production
The project will develop and demonstrate a novel pulse methane pyrolysis (PMP) system for low-cost, clean, industrial H2 production. The project will also demonstrate a direct carbon fuel cell (DCFC), which converts solid by-product carbon from the PMP process to electrical power and enhances the economics of hydrogen production. The resulting tri-generation pyrolysis (TGP) platform…
-
A New Wave in Hydrogen Production
Standing Wave Reformers, Inc. (SWR) introduces a new energy paradigm in clean hydrogen (H2) generation – shock wave or compression energy. The core innovation uses well proven components in a novel application for methane pyrolysis. The compression energy transfer in the Wave Reformer directly heats natural gas to temperatures sufficient to directly crack methane into…
-
Fort Saskatchewan Hydrogen Blending
In a first of its kind project for Alberta, ATCO will blend hydrogen into a subsection of its Fort Saskatchewan natural gas distribution system at a concentration of five percent, by volume. Because combustion of hydrogen emits only water, blending hydrogen into natural gas reduces the greenhouse gas (GHG) intensity of the natural gas stream.…
-
Electrodialysis and catalyzed carbonate for air capture for EOR
Carbon Engineering Ltd. (CE), was founded to design and commercialize technology to cost effectively capture carbon dioxide directly from the atmosphere at industrial scale. Direct air capture of CO2 enables large facilities to manage emissions from any source or location so that industrial economies of scale can be applied to the large fraction of emissions…