Subventions et des contributions :

Titre :

Hydrothermal liquefaction technology for co-processing of wastewater sludge and other solid wastes for bioenergy production

Numéro de l’entente :

I2IPJ

Valeur d'entente :

124 750,00 $

Date d'entente :

18 oct. 2017 -

Organisation :

Conseil de recherches en sciences naturelles et en génie du Canada

Location :

Ontario, Autre, CA

Numéro de référence :

GC-2017-Q3-00655

Type d'entente :

subvention

Type de rapport :

Subventions et des contributions

Informations supplémentaires :

Subvention ou bourse octroyée s'appliquant à plus d'un exercice financier (2017-2018 à 2018-2019).

Nom légal du bénéficiaire :

Xu, Charles Chunbao (The University of Western Ontario)

Programme :

De l'idée à l'innovation

But du programme :

A promising hydrothermal liquefaction (HTL) technology (PCT patent pending, file # 349-264-P) has been developed, partnering mainly with Trojan Technologies, and a few other industrial partners. The technology realizes co-processing of high-water-content wastewater sludge and other solid wastes such as municipal solid waste (MSW) and forestry/agricultural residues for co-production of bio oils and biogas. In our previous lab-scale tests in both a 100 mL batch reactor and a lab-scale continuous-flow HTL reactor (0.6 kg/h), the operating conditions including reaction temperature, reaction time and solids concentration were optimized based on the response surface methodology for the maximum bio-crude oil production. The two by-products from this process (bio-char and water-soluble products (WSP)) can be used to produce energy as well.x000D
Bio-methane Potential (BMP) test on the obtained WSP demonstrated excellent fermentability for biogas production by anaerobic digestion (AD). In this proposed I2I Phase I (reduction-to-practice) project, we aim to advance this HTL-AD process by scaling up the process for treating mixed wastes at 6 kg/h treatment capacityx000D
(10 fold scale up). The operating conditions will be optimized for the 6 kg/h scale HTL reactor system for the maximum bio-oil production. Mixtures of waste activated sludge and various types of solid wastes such as wood sawdust, cornstalk, and MSW will be investigated in the 6 kg/h scale HTL reactor system. In addition, a 5 L batch bioreactor will be constructed for AD tests of the water-soluble products for biogas production in addition to the BMP test. Finally, a techno-economic analysis for a full-scale plant (16 t/h sludge treatment capacity) will be performed, and compared with a conventional process (WAS anaerobic digestion digested sludge dewatering - landfill or incineration) as a benchmark. The research results from this I2I Phase-I project can be used for the decision making and design of full-scale HTL plants.x000D