Features Heating Structures & Equipment
Heat pumps show promise for reducing heating oil use

Nov. 19, 2014, Durham, NH — Preliminary results of a University of New Hampshire research project investigating the potential cost savings of using heat pumps to heat and cool greenhouses suggest that heat pumps could substantially reduce heating oil consumption.

 
In the fall of 2013, a heat pump system was installed in one of two identical greenhouses, at the Woodman Horticultural Research Farm, to both heat and cool the greenhouse. In the spring of 2014, researchers found the heat pump system reduced oil consumption by 255 gallons.

The project was funded by the NH Agricultural Experiment Station at the UNH College of Life Sciences and Agriculture.
 
“The rising cost of heating greenhouses has become unsustainable for many growers,” said Brian Krug, a researcher with the NH Agricultural Experiment Station researcher and UNH Cooperative Extension specialist.

“They are forced to shut down operations and wait for the coldest portion of the heating season to pass.

 
“This limits the amount of income that these growers can attain from their operations, and also requires the importation of vast amounts of produce from other regions, creating a potentially unnecessary financial drain on the region and large environmental footprint.”
 
According to Krug, the conventional greenhouse used 711 gallons of oil from February to April 2014, while the greenhouse with the heat pump system used 456 gallons. The heat pump greenhouse used an extra $145 in electricity during the period, and oil heat was used as a backup on cloudy days when there was no solar gain from the heat pump system.
 
Over the past 10 years, fuel prices have risen dramatically. In 2003, the average price for heating oil was $1.50 a gallon in the New Hampshire region. Currently the average price for heating oil is $3.24 a gallon, according to the NH Office of Energy and Planning, and similar cost increases have occurred for other fossil fuel sources.
 
According to Krug, many greenhouses in the state use heating systems involving oil or propane forced air systems that blow warm air through a collapsible tube into the greenhouse space.
Fuel cost for a standard double-polyethylene film 30-by-90-foot greenhouse in the U.S. Northeast when heated with a #2 heating oil at $4 gallon can exceed $23,000 per year.
 
“Most greenhouse operations are small rural operations, have no access to natural gas, and are forced to use expensive bottled propane gas or heating oil to heat the greenhouses,” he said.
 
With the heat pump system, UNH has used the two air-to-water heat pumps and an insulated thermal water holding tank to capture excess heat in greenhouses that is then used to heat the greenhouses when needed. The heat pumps can extract heat from ambient temperatures down to 20 degrees Fahrenheit.
 
The public, including growers, is invited to learn more about Krug’s research at a Greenhouse Field Day Thursday, Dec. 4, 2014. The event starts at 1 p.m. at the Woodman Horticultural Research Farm and concludes at the Macfarlane Greenhouses with a presentation on Krug’s hydroponics research. Attendees are invited to attend the UNH Poinsettia Trials Open House, also taking place at the Macfarlane Greenhouses.
 
Founded in 1887, the NH Agricultural Experiment Station at the UNH College of Life Sciences and Agriculture is UNH’s original research centre and an elemental component of New Hampshire’s land-grant university heritage and mission.
 
The school uses federal and state funding to provide unbiased and objective research concerning diverse aspects of sustainable agriculture and foods, aquaculture, forest management, and related wildlife, natural resources and rural community topics.

Facilities include the Woodman and Kingman agronomy and horticultural farms, the Macfarlane Greenhouses, the Fairchild Dairy Teaching and Research Centre, and the Organic Dairy Research Farm. Additional properties also provide forage, forests and woodlands in direct support to research, teaching, and outreach.