Sun Bandit Produces Solar Hot Water In Sub-Zero Temperatures to Heat Dwellings and Grow Fresh Produce North of the Arctic Circle

Sun Bandit Produces Solar Hot Water In Sub-Zero Temperatures to Heat Dwellings and Grow Fresh Produce North of the Arctic Circle

Freeze-Resistant Properties Allow World’s First Certified PV-Powered Solar Water Heating System to Heat Water, Channel Stored Energy to Feed Radiant Wall and Floor Heating and Extend Growing Season for Hydroponically Produced Fresh Vegetables In Sub-Zero Temperatures

The world's first solar hydroponic trailer to grow fresh produce north of the Arctic Circle.

LAFAYETTE, COLORADO (PRWEB) JUNE 23, 2017

Next Generation Energy’s Sun Bandit celebrated the Summer Solstice by shedding light on the first off-grid photovoltaic (PV) solar water heating solution to heat water, channel stored energy into radiant heating and hydroponically grow fresh vegetables in sub-zero temperatures -- NORTH of the Arctic Circle.  

Freezing temperatures are no longer a barrier to solar hot water production.

The 26-foot Solar Hydroponic Trailer manifesting this innovation is located in the enterprising village of Kotzebue, Alaska, the hub of 11 Native Alaskan villages in the state’s Northwest Arctic Borough. Kotzebue is 26 miles north of the Arctic Circle, in the Land of the Midnight Sun. It’s an inspiring time to celebrate the power of solar energy -- and Sun Bandit’s expanded solar applications.

The Solar Hydroponic Trailer is the brainchild of Ingemar Mathiasson and solar thermal veteran Mark Houston, founder and CEO of Anchorage-based The Comforts of Home, LLC. A Passive House Institute (PHIUS)-certified* contractor/energy rater, Houston has been advising clients on energy conservation and alternative energy concepts for 30 years.

“For the first time, we can keep the trailer at 74 degrees in sub-zero temperatures, which allows growing to begin as early as March,” said Houston. “We are collecting solar energy, converting it to heat, and running it through a glycol-based radiant floor and wall panel that provides all of the heat we need to grow a bounty of fresh produce in often-dark, bitter-cold conditions for about nine months of the year.”

The project was inspired when Mathiasson, the energy coordinator representing the Inupiat village of Kotzebue, asked Houston to build a sustainable, cost-effective solution to keep a trailer warm enough to grow fresh vegetables throughout the year.

It’s a tall task, as temperatures in Kotzebue swing from a bitter 40 degrees below zero in winter to a chilly 54 degrees Fahrenheit in the summer. Even during the summer, it’s simply not warm enough to sustain a large community garden. With an average daily temperature of 21.8 degrees Fahrenheit, the best ‘vehicle’ to consistently serve the village with fresh produce was a hydroponic trailer.

The desire to grow fresh vegetables in many remote areas of Alaska isn’t new; Alaskans import up to 95% of their food. Houston says there are companies shipping hydroponic growing containers to Alaska, but they’re overly-sophisticated for the market. They have rotating racks and a bevy of bells and whistles. And they use oil, which can run from $6 to $11 a gallon, depending on the location. Not only is oil expensive for many Alaskans (it has to be refined and then delivered by ship or flown to remote villages), it is finite. It can be a long wait for a delivery truck trekking across the tundra to replenish one’s fuel reservoir – or any household goods for that matter.

Kotzebue had tried using oil to heat their hydroponic trailer, but when it came time to ventilate the space to eliminate water vapor emitted by the plants, the ventilation systems (sometimes as rudimentary as simple fans) rid the trailer of moisture, but took the heat as well, fostering less than ideal growing conditions.

To solve the heat loss problem, Houston introduced a Minotair Air Source Heat Pump (ASHP) to remove unwanted moisture and contaminants and replenish the trailer with fresh outdoor air. Before leaving the trailer, the ASHP heats the stale, damp exhausting air to 150 degrees. The heated air blends with fresh incoming air (whose temperatures can be as low as 40 degrees below zero), warming it to 66 degrees Fahrenheit before returning it to the growing area. This is a critical process, as air colder that that would damage or kill the plants.

When village elders got wind of Sun Bandit, they asked Houston to conceive of a cleaner concept using Sun Bandit as the primary heat source. “They didn’t need anything fancy. They just wanted a place they could reliably grow things. And they wanted to heat it without using oil,” Houston said. “Burning oil (and the cash that goes with it) wasn’t working for them.”

By integrating Sun Bandit’s solar electric hybrid water heating and storage solution with hydronic heating hybridized with a Sanden Air Source Heat Pump and air sealing with urethane foam, Houston has delivered a lower cost, oil-free innovation that provides fresh vegetables year-round in a difficult growing climate – and with a reduced carbon footprint.

Seven to eight months of the nine-month Solar Hydroponic Trailer growing season will be supported using free solar hot water and radiant heat from stored Sun Bandit energy. Sun Bandit optimizes energy production with an arsenal of built-in back-up options for days when the sun doesn’t shine. In off-grid situations, Sun Bandit solar hybrid water heaters can be configured with a small wind turbine or battery backup to heat water and – as the Kotzebue project illustrates -- support radiant floor heating and hydroponics. Sun Bandit is equipped to use grid-fed electricity when solar is not available as well. View a detailed slide presentation of Houston’s solution by clicking here.

Sun Bandit was selected for this project because it performs where old-school solar water heating systems can’t, eliminating fluids, leaks, pump stations, overheating, stagnation, freezing and the complicated installation and maintenance issues that can plague traditional mechanical solar water heating systems.

“The exciting takeaway here is that freezing temperatures are no longer a barrier to solar hot water production -- even in extreme conditions,” said Next Generation Energy CEO Dave Kreutzman. See Sun Bandit’s white paper on “Redefining Solar Hot Water Efficiency” by clicking here.

As a small business owner, installer and energy rater, Houston sees the broader market potential for Sun Bandit-centered solar hot water and heating solutions in homes; he's already working with clients eager to begin.

“I’ve been in this business for decades. The Kotzebue project demonstrates that PV-powered Sun Bandit is a much better product to use in colder regions: it’s simple, low-maintenance and it can be installed in one third the time. It’s really the only one that works in the coldest, darkest of climates. And in its solar heating applications, Sun Bandit is four times more efficient than regular electric heat,” Houston said. “At the end of the day --- particularly the longest day of the year -- people don’t want to have to fix things in freezing temperatures. They just want them to work. That is where Sun Bandit shines.”

About Next Generation Energy's Sun Bandit® : Sun Bandit is a trademark-registered, patented product innovation of Colorado-based Next Generation Energy (NGE®), whose expertise in PV, solar thermal and off-grid system design and engineering have been delivering high-performing, money-saving renewable energy solutions to commercial, utility-scale, governmental, individual and multi-family housing interests for over 30 years. Learn more by calling 877-NGE-4SUN – or visit http://www.ngeus.com. Find Sun Bandit at http://www.sunbandit.us.

Previous
Previous

Pentair Aquatic Eco-Systems Launches Australia-Focused Website

Next
Next

Vertical Farming Using LED lights – Interview With Céline Nicole, Philips Lighting Research