Opportunity
CanadaBuys #42972-5a-RFP
Procurement of Non-invasive Analysis Platform for Rapid Screening of Chemical/Biochemical Effluents
Posted
June 30, 2026
Respond By
July 28, 2026
Identifier
42972-5a-RFP
NAICS
334516, 541715
This opportunity is issued by the University of Ottawa, under the Government of Canada, for a non-invasive analysis platform to support Flow Chemistry Research Stations. - Government Buyer: - University of Ottawa (Government of Canada) - Products/Services Requested: - Non-invasive analysis platform for rapid screening of chemical and biochemical effluents - Must receive effluent samples via a third-party fluid diverter (not included) - Must report composition data to third-party controller software (not included) - Capable of measuring effluent concentrations as low as 10 mg/mL within 10 seconds or more - May include multiple complementary measurement techniques - Should address fluid communication and integrability with third-party controllers - Biological applications are encouraged if relevant - OEMs and Vendors: - No specific OEMs or vendors are named in the notice - Unique/Notable Requirements: - Emphasis on rapid, online analysis for process analytical technology (PAT) - Platform will be used for optimization of flow parameters, lead optimization, and advancement of PAT - Proponents are encouraged to propose solutions that support both chemical and biological applications - No part numbers or purchase quantities specified
Description
This solicitation is for the procurement of a non-invasive analysis platform designed for rapid screening of chemical and biochemical effluents from Flow Chemistry Research Stations. The platform must be capable of receiving effluent samples via a third-party fluid diverter and reporting composition data to a third-party controller software. The analytical techniques should rapidly measure effluent concentrations as low as 10 mg/mL within 10 seconds or more data acquisition time. The proponent may propose multiple complementary measurement techniques and should address fluid communication and integrability with third-party controllers. The data generated will support optimization of flow parameters, lead optimization, and advancement of process analytical technology (PAT) for rapid online analysis.