Pork and Plants. It’s an interesting name for a company. In fact, Pork and Plants is interesting in a lot of ways — from selling half and whole hogs to being a connoisseur of Red Wattle pork to raising poinsettias to burning biomass pellets for heating its 50,000 square feet of greenhouse space. Pork and Plants is among a small, but growing number of farms producing renewable energy.
According to the 2012 Census of Agriculture, the number of farms producing on-farm renewable energy more than doubled from the last census in 2007.
Burning biomass pellets is less expensive than buying propane to heat the greenhouses, says Eric Kreidermacher, who, with his family, owns and operates Pork and Plants in Altura, Minn. But it took a few years of trial and error. Kreidermacher began burning shelled corn to heat the greenhouses in 2003 when corn was “dirt cheap.” But the first boiler was “a disaster,” and corn prices were rising, he says. With help from Minnesota’s Agricultural Utilization Research Institute (AURI), Kreidermacher learned about pellet mill dies that could create pellets from grasses and wood waste. AURI created a guide on technical feasibility, permits, cost estimates, ag feedstocks and other topics in 2007. Kreidermacher determined he could make biomass pellets work on a small scale.
That same year, Kreidermacher began growing native grasses. But little information existed then on producing biomass. “Even seed companies were mainly selling native grasses for wildlife habitat,” he recalls. He made pellets from corn stover and soybean straw, but he believed a perennial grass and forb mix would make more sense on his hilly farm in Minnesota’s Driftless Region.
Kreidermacher’s attempts with the seed mix were unsuccessful. “I planted my ‘prairie’ on really productive land. Unfortunately, native prairie for biofuel production really only makes sense on more marginal land,” he says. “I tried to see if it could compete against corn and soybeans on good productive land, to no avail. We didn’t have any marginal land.”
Fast-forward to today. Kreidermacher is using two Pelco boilers, which burn pellets made from a variety of feedstocks. These boilers can produce 1.5 million Btu. Kreidermacher is now buying native grass straw and the chaff left over from a seed conditioning facility about 50 miles away. The straw is baled in round bales, which Kreidermacher hauls with a flatbed semi. Seed cleanings are transported with a walking floor trailer.
“Eric started by purchasing bales from our native grass production fields and then discovered that the byproduct from our seed-cleaning plant worked well, too,” says Mark Udstuen, Shooting Star Native Seeds.
Icing on the cake
The seed company had traditionally burned the chaff. “Pork and Plants now takes our trash and turns it into an energy source,” says Udstuen. “Native plants have many other benefits as well, like offering cover and food for wildlife and providing long-term environmental stability. The byproduct from native plants as an energy source is just icing on the cake.”
The pellets meet about 85% of Pork and Plants’ heating needs; the rest is heated with LP gas. The greenhouse containing the operation’s poinsettias must be heated as early as September. The greenhouses containing flowering annuals and perennials are typically heated until May.
It costs about $75,000 to heat the greenhouses with biomass pellets, compared to $130,000 with LP gas, Kreidermacher says. “The first 75% of your heat load is where you are going to realize your greatest return on investment.”
An advantage of the Kreidermacher model is that the price to burn the seed chaff and native grass straw remains relatively stable, unlike LP gas. The Kreidermachers use the boilers to heat their home and shop.
While Kreidermacher does not sell energy to a local utility, he does sell pellets to a nearby hog producer who uses the pellets to heat water for the heat mats for his baby pigs. He also provides pelletizing services to a neighbor who brings him native grass biomass and uses the pellets to heat his home.
The growing number of farmers producing renewable energy is attributed to a mix of actors, largely driven by economic sustainability, according to Fritz Ebinger, program manager of Clean Energy Resource Teams (CERTs) in St. Paul, Minn.
“As time has passed, the installed costs of farm-scale renewable energy technologies have become more reasonable. Technology performance and durability have improved, and farmers are realizing these are intelligent investments for offsetting production costs,” Ebinger says. Investment tax credits have also played a role. As farm income has increased over the last few years, tax liability also has increased so many farmers have chosen to offset taxes by investing in renewable infrastructure, he says.
CERTs is focused on energy efficiency. “Every dollar spent on energy efficiency will save a person $3 to $5 on renewable energy,” Ebinger says. “We help farmers reduce production costs through conservation and aim to enhance production with more efficient technology and design. We encourage all farmers to have a farm energy audit completed through the [Natural Resources Conservation Service’s Environmental Quality Incentives Program] or their local utility for a baseline understanding of their electrical and thermal energy consumption,” he says. Farmers can use this audit to plan equipment upgrades or address production costs. The audit includes payback times in terms of energy savings and explains how different technologies may be used.
CERTs provides information on the limitations and benefits of renewable energy technologies, such as farm-scale wind and solar siting, thermal (hot water and air), ground source heat pumps, and waste heat recovery. Ebinger has seen major growth in solar electric or photovoltaic energy in recent years, mainly due to the declining costs of installation and tax incentives. He says last year the Minnesota Legislature passed a Made-in-Minnesota production-based incentive for solar PV panels. The state’s Value-of-Solar Tariff for ratepayers of investor-owned utilities also compensates producers for the value of the solar energy they produce.
Rural electric co-ops, which service most farmers, were exempted from these solar provisions because they have a fundamentally different business model: The community owns the electric distribution cooperative and its infrastructure, not shareholders. Net metering is unchanged for rural electric co-ops and municipalities.
Biomass as an alternative to liquid propane is another growth area. Ebinger notes the Minnesota departments of Agriculture and Natural Resources have established grant programs to examine ways farmers can avoid volatile LP prices. “There has been greater interest in wood boilers, ground-source heat pumps, waste heat recovery and solar transpired-air to address the LP challenges many livestock and greenhouse producers face,” he adds.
“The biggest challenge for farmers we work with is the up-front cost of technology,” he says. “Farm-scale renewable energy is similar to purchasing a large farm implement. Farmers should focus on payback, including an examination of investment tax credits, potential grants and offsetting energy consumption.”
Learn more at cleanenergyresourceteams.org.
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