Project Industry: Chemicals and Fertilizer

  • Hydrogen Canada Blue Ammonia Project Pre-Construction Studies

    Hydrogen Canada Corp. (“HCC”) is seeking to build and operate a world-class blue hydrogen/ammonia facility in Alberta for export to Asia.  HCC’s Facility will produce low carbon ‘blue’ hydrogen with an ammonia production unit at the back end. Blue Hydrogen production consists of two processes: the syngas production process and the CO2 removal process.  The…

    Read More

  • RPMachine Fabrication and Demonstration

    Resolve Plastic Recycling Ltd. (“RPR”) will build and demonstrate a novel technology for recycling and accelerate its development to commercial-ready. The RPMachine is a stand-alone plastics recycling technology (“PRT”) that is contained and operated in a shipping container or semi-trailer. The RPMachine employs a non-emitting process to convert 3 tonnes of waste plastic per hour…

    Read More

  • Commercial Scale Micronized Sulphur Fertilizer and Soil Amendment Facility

    Sultech’s proprietary and patent protected micronized sulphur technology develops products for a sustainable circular economy. It converts elemental sulphur (“S°”), a low value by product of hydrocarbon processing, into an alternative to carbon intensive synthetic fertilizers. This project is a pivotal milestone in the role out of a climate smart, organic product with confirmed market…

    Read More

  • Energy Efficient Propylene-Propane Separation

    An Energy Efficient Plastic Production Technology Olefins, especially ethylene and propylene, are the building blocks of many important plastics, polymers and other chemicals. Funded through the Partnership Intake Program in 2020, the Permylene solution is a membrane technology that offers several applications, including olefin recovery and upgrading, and solves capacity constraints within petrochemical and refining…

    Read More

  • Carbon Reforming to Economic Additives for Transitioning into Emission-less era

    The key objective of the CREATE project is to accelerate the development and commercialization of new carbon capture and utilization technology developed by a spin-off company, Carbonova Corp. (“Carbonova”), of the University of Calgary in Alberta, Canada. The technology converts waste heat and industrial CO2 streams into valuable products based on carbon nanofibers and will…

    Read More

  • High-Value Synthetic Chemicals and Gasoline Drop-In Liquid Fuels from Canada’s CO2 and Flare Gas Emissions

    Based on over a decade of research from NASA, the DOE and a number of industrial projects, Pioneer has developed a process to create butanol from greenhouse gases. Butanol is an attractive alternative fuel substitute that also has many other applications. This innovative process also addresses key production issues facing other alternative fuels, including development…

    Read More

  • Converting carbon dioxide into chemicals and fuels using clean, domestic sources of energy in Alberta

    With the ability to create valuable organic chemicals from CO2 emissions using renewable energy sources, Liquid Light’s process provides an attractive alternative revenue source for CO2 emitting industries. Offered as a licensable technology, industries could potentially produce more than 60 different organic chemicals that contribute to producing consumer goods like water bottles or materials like…

    Read More

  • CO2 Conversion to Methanol through Bi-reforming

    With funding from ERA, the University of California Riverside (UCR) created an innovative catalyst to be used in the conversion of CO2 and Methane (CH4) to produce methanol—a valuable fuel and intermediary chemical. This catalyst makes improvements on catalysts currently available, but still can be adopted for use by conventional processes currently in operation. This…

    Read More

  • Field-Deployment of a Carbon Dioxide Transformation System Powered by Sunlight

    McGill University, with its commercialization partner Lumenfab, is developing a novel technology that has the potential to create high quality fuels from CO2 emissions and wastewater by using just solar power. The team, which also includes representatives from the University of Alberta, McMaster University and Hydro Quebec, will build and field test a high efficiency…

    Read More

  • Methanol+: Methanol from Carbon Dioxide and Green Hydrogen

    Innovating in two major areas, Quantiam Technologies developed Methanol+ to combine hydrogen and CO2 to produce methanol. The first innovation comes from a catalyst database that helps increase efficiency gains, while the second innovation is the generation of hydrogen with environmentally sustainable methods. This process delivers a high-value chemical with a large market and a…

    Read More