Grants and Contributions:

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Title:
Sustainable Fuels and Chemicals
Agreement Number:
RGPIN
Agreement Value:
$165,000.00
Agreement Date:
May 10, 2017 -
Organization:
Natural Sciences and Engineering Research Council of Canada
Location:
Ontario, CA
Reference Number:
GC-2017-Q1-02018
Agreement Type:
Grant
Report Type:
Grants and Contributions
Additional Information:

Grant or Award spanning more than one fiscal year. (2017-2018 to 2022-2023)

Recipient's Legal Name:
Ng, Flora (University of Waterloo)
Program:
Discovery Grants Program - Individual
Program Purpose:

Fossil fuels such as coal and petroleum are used as feedstocks for chemicals, transportation

fuels, and energy. While economic growth is associated with energy consumption, the use of

coal and petroleum leads to carbon dioxide release and climate change. One approach to curbing

the effects of climate change is through the substitution of fossil fuel-based energy sources with

renewable energy resources. Through the proposed program, we aim to develop innovative and

energy efficient technologies for the efficient processing of renewable biomass and low-carbon

feedstocks to chemicals and clean fuels. These new technologies will contribute to sustainable

economic development, for the benefit of Canadians and, potentially, for societies globally.

The new technologies to be developed will enable the conversion of glycerol, a by-product of

biodiesel production , to higher-value chemicals such as 1,3-propanediol and 1-propanol. 1,3-

Propanediol , currently made from petroleum feedstock, is used in the production of highperformance

polymers. 1- Propanol is used as a solvent and could also be used as a fuel additive

and as feedstock for propylene to make green polypropylene polymer. Upgrading the value of

glycerol will translate into reduced costs for the production of biodiesel, and will increase the

viability of the biodiesel industry. This proposal will also use catalytic distillation, an energy

efficient reactor technology that combines reaction and separation in one distillation column, to

produce clean transportation fuels from light hydrocarbons derived from biomass or low-carbon

shale gas. Innovative research on the development of highly active and selective catalysts using

state-of-the-art characterization techniques and reactor technology will be carried out to produce

a high yield of the desired product with lower energy requirement. This research will provide

training of highly qualified personnel to lead Canada into a competitive global market for

sustainable chemicals and clean fuels. This research will benefit the Canadian economy by

creating new business and clean technology jobs, and also help to reduce carbon emissions.