Three Calgary-area entrepreneurs say they’ve invented a device that will trap greenhouse gas emissions produced by home furnaces, bringing the battle against global warming to the suburbs.
The irony of Albertans opening a new front in the war on GHGs isn’t lost on the trio behind CleanO2 Carbon Capture Technologies — the province’s oil and gas industry is usually blamed for Canada’s inability to meet GHG reduction targets.
They just installed their first full-scale prototype in the utility room of partner Jaeson Cardiff’s Airdrie bungalow.
“There is no other company doing carbon capture from the residential market. Nobody,” said Cardiff in an interview.
“It’s very complex. It comes back to the notion of rather than dealing with a large quantity of CO2 at a single source, you’re dealing with a bunch of CO2 spread out over a wide area. The average home produces six tonnes (per year). The city of Calgary census from 2012 showed 245,000 homes so that’s 1.5 million tonnes of CO2 and that’s just the single detached homes.”
Cardiff, a plumber with a knack for inventing, came up with the concept of home carbon capture eight years ago while brainstorming ideas for a science magazine invention contest.
He brought in his boss, Scott Forgrave, owner of Calgary plumbing and heating company Excelair Mechanical Services Ltd., and Kathi Fischer, a chemical technologist, and they got to work.
The prototype, a thin polished black box with blue lights that perches next to the furnace like an extra water softener, is designed to come on automatically when the furnace kicks in. Many of its parts were made using a 3D printer picked up on eBay.
High-efficiency furnaces create carbonate ions and carbonic acid, the company says. The CleanO2 machine — dubbed CARBiNX — circulates cold air from outside through a heat exchanger to cool the fumes to make it easier to dissolve the carbon dioxide with an atomized solvent spray. The solvent — they won’t say what it is, other than to emphasize it’s non-toxic — is then circulated through polystyrene resin beads which strip off the carbonate ions so the liquid is ready to be used again. The bead cartridge can be switched out when it is full.
Early testing suggests the CleanO2 device can capture 30 per cent of the carbon dioxide from a typical residential furnace — that’s about two tonnes per year. One of the key questions is what you then do with the carbonate, with options including consolidating it for recycling, sending it to a landfill or flushing it down the drain to be collected at a municipal sewage treatment facility.
CleanO2 says it needs to raise about $500,000 to secure patents, finish testing the prototype, file for certification and begin manufacturing. Once the money is in hand, the partners estimate a product could be on the market in a year or so.
Fischer added that furnace manufacturers may be interested in licensing some of the technology to incorporate into their products.
Forgrave pointed out that high-efficiency furnaces are mandated by the federal government — if CleanO2’s product works as hoped, it could also be backed by government through legislation or subsidy. He said that’s something Alberta’s new NDP government might also be interested in backing.
The partners estimate the prototype cost about $10,000 to build but with mass production the cost could fall to $450 to $500 per unit, about the same as a water softener.