REGIONAL ENERGY INTEGRATION TO REDUCE GHG EMISSIONS AND IMPROVE LOCAL AIR QUALITY

摘要

Greenhouse industry is a fast growing and energy-intensive industry in Canada. The average greenhouse requires about 2.85GJ/m{sup}2/year primarily from natural gas combustion for providing both heat and CO{sub}2 for stimulating plant growth, with a total annual CO{sub}2 emission in the order of 2.5 million tones. The substitution of natural gas by biofuels will have a great potential for GHG emission reduction. The deterioration of local air quality in regions with intensive agricultural activities, on the other hand, is closely related to the emissions from animal barns, from manure storage, handling and land spreading. Approaches to address energy and emission issues for each industry in isolation have failed in the past because of the higher emissions associated with biomass fuel combustion and higher waste management cost for manure. In this paper, we present a systems approach for solving the demand of low-cost energy in greenhouse operation and the emission control associated with manure disposal by constructing a local eco-industrial network (BEST). In the new integrated operation, the manure waste from the barn will be used as a renewable fuel source for the greenhouse heating, while the increased air emission from the green houses is compensated by the reduction of emissions from manure storage, handling and land spreading. A preliminary analysis based on an average greenhouse of 1000m{sup}2 in size showed that a net reduction of 320 tonnes/year CO{sub}2 eq. can be achieved in the integrated system, translating into an potential reduction of 1.2 million tonnes per year in BC and 3.2 million tones per year nationwide if all existing greenhouses are converted to the integrated system. On the other hand, odor gas emissions including NH{sub}3 and H{sub}2S can be eliminated in the integrated system. For manure-to-biogas energy conversion option, capital and operational cost will be a major concern and needs to be analyzed in the future. For direct manure combustion option, emission control equipment is needed to reduce emissions of particulate matters, SO{sub}x and CO to levels acceptable for greenhouse operations before the flue gas CO{sub}2 can be directly utilized in greenhouse for stimulating plant growth.