This Solicitation opportunity from Government of Canada was posted on October 3, 2022. The submission period has ended. Browse the details below for market research, or find similar active opportunities.
Study of H2 storage in suitable geological formations
Closed
Etude du stockage de H2 dans des formations géologiques adaptéesCanadaSubmission Closed
Contract Overview
Solicitation details, issuing organization, response deadlines, documents, and interested companies for this government contract opportunity.
General Info
Agency
Government of Canada → Natural Resources CanadaView Agency
NAICS
N/A
Place of Performance
*National Capital Region (NCR) *Canada, CANSet-Aside
NONE
Documents
(1)AI Contract Breakdown
Uniform Contract FormatWhat is UCF?
Uniform Contract Format (UCF) uses AI to break down any contract into standardized sections—scope, pricing, deliverables, and evaluation criteria.
Timeline
PhaseClosed
Submission Closed
Organization & Contact Information
Show more
AgencyGovernment of Canada → Natural Resources Canada
Contacts1 person available
OfficeN/A
Office AddressN/A
Contacts
Full Description
Show more
The Department of Natural Resources Canada (NRCan) has a requirement to conduct research on the examination of H2 storage and trapping at pore-scale scales within geologic formations.The results will help guide the design and regulation of H2 storage in geological formations (e.g updating CSA - Canadian Standards Association) Z341). The initiative will provide both policymakers and the industry insight into the risks and requirements for the safe storage of H2 across Canada.The proposed procurement of services will be a part of a joint research collaboration between the Geological Survey of Canada (GSC) and Department of Earth Science and Engineering (ESE) research groups of the Imperial College of London (ICL).The work will involve the following:H2 trapping and interaction with the host formation.Storage capacity estimation based on the type of formation and formation fluids.Buoyancy-driven flow and leakage of the stored H2.
