Bio innovation Greener heating for greenhouses A new control system for biomass furnaces leaves greenhouses with a smaller carbon footprint. By Annie Webb and Gabrielle Bauer greenhouse crops can be grown throughout the year, they are becoming increasingly important for the food supply of countries like Canada, which have colder climates and shorter growing seasons. However, greenhouse heating can be one of the high-est operating costs for a producer. Heat is typically supplied by non-renewable fossil fuels, such as oil and natural gas. These fu-els are also frequently used to enrich the greenhouse with carbon dioxide (CO 2 ) to enhance plant growth. The high cost and environmental impact of fossil fuels has led some greenhouse operators to look for alternative heat sources, such as biomass. Enter the Biomass Furnace Flue Gas Emission Control System (GECS), a process designed to recapture energy and CO 2 from the furnace and redirect it to the green-house. The brainchild of researchers and sev-eral graduate students at McGill Universi-ty’s Department of Bioresource Engineer-ing, GECS is “a greener way to use wood pellets for heating greenhouses,” says Dr. Mark Lefsrud, the engineering professor spearheading the project. The system not only recovers heat and purifies noxious gases and particulates from the furnace’s exhaust, it also recycles CO 2 back into the greenhouse, which enhances plant growth and yields. The GECS unit consists of a rigid box air filter coupled with two sets of heating elements, two catalytic converters and two forced air fans. The unit is attached to the Because chimney of a pellet stove installed in a greenhouse. “Pellet stoves generally pro-duce less harmful emissions than other stove types because the shape of the bio-mass allows for a better distribution of ox-ygen, which produces a uniform and com-plete combustion. This makes the flue gas easier to purify and more suitable for CO 2 enrichment,” explains Dr. Lefsrud. “The air filter removes the particulate matter in the flue gas, while the other ele-ments transform the exhaust gases into less harmful gases,” says Yves Roy, a Master’s candidate who played a pivotal role in de-signing the system. He explains that there are three steps in the purification process: the first is the mechanical collection of large-scale particulates using a combina-tion of an electrostatic precipitator, cyclone and a bag filter. Finally, two sets of catalytic converters and heating elements transform all noxious gasses to less hazardous gases. Once the GECS prototype was complet-ed, the team tested it on the chimney of a wood pellet biomass furnace. The device passed with flying colours. “We confirmed that it considerably improves the thermal efficiency of the wood pellet heating system since no heat is lost through the flue gas,” says Dr. Lefsrud. The team’s measurements also affirmed the system’s safety: when the exhaust from the furnace chimney was pumped directly into the greenhouse, the air remained well within Health Canada’s air quality guidelines for acceptable levels of indoor gases and contaminants. The GECS unit is also very cost-effec-tive: “The capital investment required for the GECS is far lower than for alternative heating systems currently on the market,” says Lefsrud. His experiments show that direct combustion exhaust gas recuperation through the purification system reduces greenhouse heating costs by 18.8 per cent. Translated into bottom-line terms, this means both a lower heating bill and a lower carbon footprint, even for small operations. “End-users may even be able to claim a car-bon credit,” he adds. BioFuelNet gave legs to the initiative, supporting graduate students to travel to conferences where they showcased the technology and networked with other sci-entists in the field. Two things need to be obtained before the GECS goes to market: a patent and a unit suitable for commercial use. The Mc-Gill team has already applied for a pat-ent and intends to enhance the product to make it commercially viable. “We plan to build a control system into the unit to allow growers to adjust CO 2 levels,” says Dr. Lefsrud, adding that “the BioFuelNet community is helping us with the com-mercialization process by connecting us to the right people and information.” Lefsrud has high hopes for the new technology. “Our piece of equipment has the potential to spur economic develop-ment in the agriculture and greenhouse sector and strengthen Canadian food secu-rity,” he says. Roy shares Lefsrud’s enthusi-asm. As weather patterns become increas-ingly fickle, greenhouses are set to become more popular than ever. “I’m confident our system will make it economically feasible for greenhouse operations of all sizes to use wood-pellet biomass furnaces.” • SEPTEMBER/OCTOBER 2014 12 Canadian BIOMASS
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