Plug in to personal energy independence with clean, sustainable, high tech electric tractors and electric lawn mowers.
This solar-electric tractor, converted by John Howe from an old Farmall Cub, pulls a disk harrow with ease.
Photo by John Snyder
Imagine a lawn mower that whirs instead of roars. Imagine a tiller powered entirely by sunlight. Imagine a tractor that doesn’t spew exhaust. These aren’t idle dreams — such machines exist today. And every year, a few new electric and solar-electric implements reach the market. Meanwhile, adventurous inventors, far-thinking tinkerers and electric-vehicle enthusiasts do it themselves, using 21st century technology to convert existing mowers, tractors and other implements to solar-electric power. They’re handling chores and putting food on the table, even as oil wells are drying up.
Solar-electric implements offer sustainability and freedom from fossil fuels, and electric tools, mowers and tractors are cleaner and quieter than their gas-powered counterparts. That explains why they’re showing up on a growing number of farms, market gardens and lawns around the United States and Canada.
Several U.S. companies sell electric lawn mowers, some of them cordless and rechargeable. One sells a small walk-behind tractor and a lawn mower, both powered by solar panels, and is developing a solar-powered electric tractor. Another company plans to introduce electric tractors in Europe later this year and make do-it-yourself conversion kits available in North America soon thereafter. Electric-powered tillers, garden carts and other implements also have appeared on the market in recent years.
Steve Heckeroth, a renewable-energy pioneer, off-the-grid homesteader in northern California and award-winning architect, says switching to clean, renewable solar-electric power is one of the best ways to solve our growing crises in energy and global warming. And he walks his talk — since 1993, he’s built about a dozen electric cars and converted six farm tractors to run on rechargeable batteries and electric motors, rather than conventional gas or diesel engines. When their solar panels are fully charged, his best tractors can run a loader all day, cultivate for about four hours or drive a rototiller for two hours. The batteries recharge in about three hours.
Some of his tractors carry their own power source: a canopy of solar panels suspended over the machine. “The canopy on those tractors generates less than a kilowatt,” he says, “but for planting and harvesting, that’s enough to run the tractor. This is where the electric tractor can really shine.” Heckeroth says electric motors have several big advantages over internal-combustion engines, especially for tractors. Gas engines rarely achieve 20 percent efficiency, but electric motors often approach 90 percent efficiency. Motors never waste fuel by idling; they simply stop. Even if the batteries charge from the conventional grid, an electric motor accounts for far less air pollution than a gas engine (studies show reductions of at least 50 percent). But the clearest advantage of electric vehicles is that they can be charged from nonpolluting, renewable sources, thereby reducing dependence on fossil fuels.
The extra weight of batteries is a disadvantage in automobiles, but it improves tractor performance by increasing traction. And electric motors generate high torque at very low rpm, making them more effective than gas or diesel engines for the low-speed, high-power applications typical for tractors.
In addition, electric motors are constructed more simply than engines and therefore are much easier to maintain. “Using industrial batteries, every component in the electric tractor will operate with very little maintenance for 15 to 20 years,” Heckeroth says. “Many electric forklifts have been in service for 50 years, while their gas counterparts last only five to 10 years.” (See his article, “The Case for Solar-powered Electric Tractors.”)
In addition to converting tractors to run on batteries, Heckeroth’s company, Homestead Enterprises, has built several electric and solar-electric tractors from the ground up. In the late 1990s, the company created electric prototypes for two major tractor manufacturers, Ford-New Holland and Eifrig Ltd., but the companies did not put them into production.
Despite the numerous advantages of electric power, no major manufacturers have yet decided to lead the shift that now seems inevitable as fossil fuels dwindle and costs climb.
Nonetheless, Heckeroth is not alone in his conviction that the future will be solar-electric. Major manufacturers’ lack of vision hasn’t stopped others who share his understanding of the multiple benefits of electric tractors. For now, at least, electric power seems most promising for use on small farms and home gardens. Here is a quick look at the current electric-implement market in North America:
Riding mowers. Canadian entrepreneur Brian Edmond routinely mows two acres of grass using just 50 cents’ worth of electricity each time. Edmond’s electric lawn tractor uses 48-volt deep-cycle batteries, permanently lubricated drive components and an electronic automatic transmission (see Image Gallery).
“I have been using it for two years now without any problem,” Edmond says. “The first thing people say when they see this is, ‘Why isn’t everybody making them?’”
His new company, Edmond Electric Co., is converting 20 horsepower lawn and garden tractors to battery power. The electric lawn tractors, complete with 42-inch mower decks and side discharge, will go on sale in Europe later this year under the Lawn Boss brand. If plans work out, they will reach North American markets in 2007, for about $4,000 each. Edmond says he also hopes to sell kits for converting conventional gasoline-powered lawn tractors to electric power around the end of this year for $1,500 to $2,000.
“The kit should be very easy to assemble and should fit most 38- and 42-inch twin-blade tractors of good quality,” Edmond says.
Electric push lawn mowers. Black & Decker sells a cordless push model for about $450, along with five corded mowers. Country Home Products’ Neuton cordless mower recently became the country’s bestseller, at about $400. Country Home Products also sells the Neuton battery-powered garden cart, with two forward speeds and reverse, 200 pound capacity and push-button controls.
Steve Gladstone, Neuton’s senior product manager, says the company is developing a solar battery charger. “The market is strong now for battery-powered products,” he says. “The interest is there, but battery-electric products cost a bit more than the gas equivalents. The selling points are convenience and ease of use, quiet operation, pollution reduction and low maintenance.”
Several companies, including Brook-stone and Sunlawn, sell battery-powered reel mowers, at prices ranging from $200 to $390 (See Lawn Mowers: Cordless and Electric).
Solar-electric implements. Free Power Systems is developing a solar-electric tractor. Owner Tom Lopez, a retired aerospace engineer, says, “This new product will use existing farm attachments and will be useful for small farms, with batteries recharged by solar panels attached to its canopy.”
The company already sells two solar-powered devices. The Sun Whisper lawn mower comes standard with a 19 inch blade and a rear leaf bagger, and it recharges from a roof-mounted solar panel. The company says it is ideal for lots up to one-third of an acre. It sells for $675.
The Sun Horse is a 190-pound two-wheeled walk-behind tractor — not a tiller — that plows, cultivates and plants with attachments that mount on a quick-change tool bar. It draws electricity from a solar panel mounted on its handlebar and looks something like a tall, narrow mailbox on wheels. “It is powerful enough for tough jobs like plowing and cultivating, yet precise enough for seeding and close weeding,” Lopez says.
The basic Sun Horse with one solar panel costs $2,250. A complete “farming system” with plow, four-row gang seeder, cultivators and more costs about $4,800.
Electric towing. If you need to lug around heavy loads, two companies make electric vehicles designed expressly to do that. The Electric Ox2, made in Ontario by Electric Tractor Corp., comes in 36- and 48-volt versions. The company bills it as a towing vehicle for indoor and outdoor situations. The Electric Ox MP is designed for outdoor use with attachments to mow, tow, grade or push snow. The company says the Ox can tow up to 8,000 pounds. An optional AC inverter allows the 48-volt model to power standard electric tools.
Gorilla Vehicles sells its Gorilla e-ATV in 24- and 36-volt versions. Each can be configured for primary use off-road, on turf, on paved surfaces or in close quarters like warehouses. The e-ATVs can carry payloads of about 450 pounds and can tow up to 4,000 pounds on level ground.
Drill-drive tiller. Last year, Johnny’s Selected Seeds introduced the “Tilther,” a 15-inch-wide mini-tiller powered by a cordless electric drill, developed by master four-season grower Eliot Coleman. It costs $350.
Coleman says he’s not finished inventing. He has a dream, and some plans, for a go-kart-size electric vehicle that would be a small mobile platform for seeding, cultivating and harvesting. “We’ve been to the moon. Surely we can make better tools for small farmers,” he says. “If I could find a bored retired engineer with a good shop, I’d share these plans.”
Convincing major tractor makers to go electric is not a simple task. Like the electric car, electric-powered tractors and garden and yard implements have had an on-again, mostly off-again history. General Electric sold the Elec-Trak lawn tractor in the late 1960s and early ’70s. John Deere sold the Electric 90 and Electric 96 lawn tractor models in the ’70s.
Quite a few of those old electric lawn tractors are still mowing merrily along. In May 2006, a Deere Electric 96 in beautiful working condition sold on eBay for $650.
Some electric tractor enthusiasts covet the 50-year-old Allis-Chalmers G model. Its small size and rear-mounted engine made it ideal for market-garden cultivation — and make it ideal now for conversion to electric power. (See Vintage Electric Tractor Conversion.) The modern tractor most similar to the old Allis G is the Saukville, which is manufactured in Wisconsin. A 20 horsepower gasoline-powered Saukville sells for about $15,000, while the 26.5 horsepower diesel version costs about $18,600. Implements are extra.
Saukville President Larry DeLeers has been following the growing interest in electric tractors, but has no plans to move in that direction. Electric tractors have potential, he says, but there are just too many unanswered questions.
“Investors are not rushing to the table with wads of cash,” DeLeers says. “Is the market big enough to enable you realistically to recover your investment costs in a reasonable period of time? I would think one of the big companies would look at this.”
In fact, one of the world’s biggest equipment companies, John Deere, is at least looking at alternatives. Deere already sells electric versions of its Gator utility vehicles for about $8,300 and recently introduced a diesel-electric hybrid Gator for the military. Deere is seriously exploring alternative power sources, including electric motors.
“We have multiple teams in our engineering centers working on this,” says Peter Finamore, manager of research and development at John Deere Advanced Energy Systems in Charlotte, N.C. “This is a complex issue. There are no easy answers. We do not have product plans in this area, but we are doing an awful lot of research and development. Electric vehicles are difficult to justify, because the cost of electric batteries and drives is still quite high. But the cost is coming down.” Meanwhile, of course, fuel prices are going up.
Saukville’s DeLeers says, “You need to determine the various loads put on electric motors and how long the batteries can last under extreme loads. You wouldn’t want to be stopping every half hour to charge the batteries.”
Solar-electric devotee Heckeroth says such comments don’t consider the tremendous differences in efficiency: about 80 percent for batteries, 90 percent for electric motors and less than 20 percent for gas and diesel engines. He points out that in many huge vehicles, internal-combustion engines don’t move the vehicle directly but generate electricity, which powers electric motors that actually do the work. “People think electric vehicles are wimpy little things, but the largest earth-moving machines use engines to power electric wheel-motors,” he says. “Most diesel locomotives are electric vehicles. Nuclear submarines are electric vehicles.”
In Waterford, Maine, retired mechanical engineer John G. Howe plows, discs, rakes hay, tows up to 100 bales at a time — and even enters tractor pulls — all with an antique International Farmall Cub powered entirely by the sun.
A metal frame atop the old red tractor holds four photovoltaic panels. They supply electricity to nine 12-volt batteries stored in boxes on both sides of the tractor. The deep-cycle marine batteries cost $60 each. They feed a 10 horsepower DC motor mounted under the driver’s seat. The motor, heavy lead-acid batteries and 11-by-5-foot canopy all add lots of weight, which is exactly what a tractor needs for good traction, Howe says. He spent more than $5,000 converting his Cub to electric power, not counting the cost of the tractor. He says the power plant is more than ample.
“It definitely works!” Howe says. “That little bugger has more power than the tractor can handle. I limit the power to 100 amps maximum so I don’t rip the gears out of the old tractor.”
Howe lectures and writes prolifically about alternative energy and the declining oil supply. He also takes his solar-electric Cub to rural fairs around Maine, and he says it attracts an audience that he can tune into his main concerns. “It’s knee-deep in people all day long,” Howe says. “They love it. We use it to promote the energy cause.”
From lugging logs around his woodlot with a log chain and towing his wife’s Volvo, Howe already knew that his electric Cub was a pulling fool. But, out of curiosity, he entered it in a load-pulling contest at a fair last year. “I used second gear, let some air out of the tires and raised the hydraulics,” he says. “The front end came up. I couldn’t steer. After 40 or 50 feet, I started to head for a wall. I had to shut it down. I got a standing ovation when I drove out of there.”
As the experiences of Heckeroth, Howe and others show, today’s technology — plus a little amateur ingenuity — can convert a standard gas-powered tractor into a quiet, emission-free, solar-powered electric tractor.
Today, solar-electric mowers and tractors are several things, depending on scale and point of view: do-it-yourself projects, on-the-shelf products, development projects or promising prototypes. Stay tuned — as improved solar collectors and electric drives become available, and oil becomes ever more expensive, we predict that clean, sustainable solar-electric power will drive increasing numbers of machines everywhere.
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