DOE awards $3 million for R&D to wood stove manufacturers

The MF Fire leadership team in 2018
- Taylor Myers, Paul LaPorte and
Ryan Fisher.

The U.S. Department of Energy (DOE) selected only two companies – MF Fire and ISB Marketing – to receive $3 million for research and development (R&D) through the DOE’s Office of Energy Efficiency and Renewable Energy. The DOE had $5 million for stove and boiler manufacturers but decided to only award $3 million this year.

The two manufacturers are working on next-generation controls and designs for wood stoves that have barely entered the marketplace. Both companies are focusing their efforts on how to make stoves cleaner in the hands of consumers – not just in the test lab – which has become widely recognized as the Achilles heel for the millions of Americans who heat with cord wood.

[Dec. 15, 2019 update - The DOE announced their intention to grant another $5 million for biomass heater R&D in 2020.]

MF Fire received two grants, one for a device that continuously monitors performance of key combustion indicators and delivers real-time user guidance, and the other for a “swirl stove” that induces and maintains swirling combustion and introduces a new balance of primary, secondary, and dilutive air. ISB Marketing, working with its sister company, Stove Builder International (SBI), is developing a Machine Learning algorithm for a self-regulating wood stove that would have a PM emissions rate below 1.2g/h and offer an overall efficiency of more than 75% (HHV).

The SBI team that produced the award
winning prototype of an affordable,
automated stove

DOE is expected to be able to offer R&D grant funding again in 2020 and may be able to stimulate R&D in more wood heater manufacturers. “We applaud Congressional appropriators and the DOE for funding this R&D that can help millions of Americans affordably heat their homes with next generation wood and pellet stoves,” said John Ackerly, President of the Alliance for Green Heat.

The $2 million for MF Fire is a large cash infusion for a young, small manufacturer with lots of innovative ideas and priority on R&D. “This will enable us to hire new people to ramp up our testing and apply techniques and technologies used by other industries," said Ryan Fisher, COO of Baltimore based MF Fire. “For example, eliminating PM by more thoroughly and aggressively mixing fuel and air has not been done by stove manufacturers. Square, rectangular corners create dead spots that inhibit combustion." Mr. Fisher said. Fisher and his original partner Taylor Myers got their start in designing stoves as graduate students preparing for the first Wood Stove Design Challenge in 2013. The rookies won multiple awards before the age of 25 and still haven’t turned 30. Some see them as the face of a new wave of stove designers.

ISB Marketing, with their SBI counterparts, are taking a similar tack but its potentially applicable on a range of stove models from a major manufacturer. ISB is working with Machine Learning algorithm that will learn how each specific user heats his/her stove. The stove will then adjust its combustion parameters to compensate for any “bad” human behavior that tends to increase particulate matter (PM) emissions and reduce efficiency. A home-designed real-time PM monitoring system will be developed to obtain a better understanding of the stove’s behavior.

Mark Shmorhun, the program
manager at DOE who managed
the grant process, at the 2018
Wood Stove Design Challenge

Marc-Antoine Cantin, President of SBI said in an interview that moving innovative and more risky stove projects through a corporation takes longer, as models that have conventional technology are often green-lighted first. “External R&D funding can help reduce risk,” Cantin said. Even with a million dollars from the DOE, a batch of 26 of the new stoves is not expected to be beta-tested until the winter of 2022-23. SBI won second place at the 2018 Wood Stove Design Challenge for designing a simple, affordable stove that allowed the operator to select high or low heat output and used a low-cost control board and thermocouple sensors to ensure that the stove burned cleanly.

The DOE does not disclose how many applications they received or from whom, but it is widely believed that the agency received few applications for the available $5 million pot of funding. John Crouch, Director of Public Affairs for HPBA, said in an interview, “The funding announcement came at a bad year because manufacturers were scrambling to certify their stoves to the stricter 2020 EPA standards. We hope there will be more applicants if the DOE offers the grants next year.”

The DOE also does not disclose who was on their panel of expert reviewers. According to some companies who applied, some didn’t make it through the process because they had not fully completed the application. Others made it through the first round, and then had to respond to specific questions from the reviewers. Ryan Fisher of MF Fire said he got multiple questions about whether his small company could execute two grants and they had a solid plan in place to manage that. SBI got many questions about their corporate structure. They are owned by US-based Empire Group, who also owns ISB Marketing. They plan to carry out R&D for the grant in the US. Other applicants who made it through the first round, didn't make it through the second round.

The one-page summaries of the 3 grants can be found here: MF Fire-Swirl Stove, MF Fire-Performance Monitoring, ISB Marketing-Automated Stove.

This recent entry of the DOE’s Bioenergy Technologies Department which focuses mainly on biofuels, fills a significant gap for the US government. The EPA provides baseline emission and testing standards and the USDA’s Forest Service provides support for larger commercial use of biomass for heating applications. This marks the first time that a US government agency has provided support for companies to push the boundaries of emission and efficiency controls for residential wood and pellet heaters. The United States has the toughest emission standards for residential heaters in the world, which has kept US companies at the forefront of an industry that can provide affordable, low carbon heating solutions in the switch from fossil fuels to renewables.

The original DOE funding opportunity was directed at stove R&D that included:

• Novel and innovative residential wood heater designs to improve combustion chamber geometry, combustion air flow distribution, mixing of combustion air with gasification products, stove baffling designs, etc.
• Improvements in automation of stoves to optimize combustion control.
• Wood heater power generation via thermoelectric module integration
• Improvements in catalyst technologies for emissions reduction

New York and Canadian companies win technology challenge to automate the wood Stove

Jonathan Male, director of the DOE's Bioenergy
Technology Office, announces the winners.
Photo: Sam Kittner for Brookhaven National Lab.

(Washington, D.C.) – Two companies with years of experience in electronics and stove design won coveted first and second prizes in the 2018 Wood Stove Design Challenge, held in Washington DC from November 9 – 13. 

Manually operated wood stoves are extremely common throughout the northern US, Canada and Europe but no one has yet popularized a solution to prevent them from emitting excessive smoke in the hands of operators.

Wittus, a company based in Pound Ridge New York, teamed up with German engineers and won first prize for both the automated and thermoelectric categories with a living room unit that also heated water for space heating

The Wittus team who won first place in both
the automated and thermoelectric categories.
Photo: Kittner for BNL.

and generated an average of 161 watts and a maximum of 268 watts over the 2.5-hour test period. Total power output over the test period, net of parasitic losses, e.g., pumps and fans, was 276 watt-hours of electricity. The use of thermocouple sensors and fans facilitated clean and efficient combustion.

Stove testers from Brookhaven National Lab and
New York Department of Health.
Photo: Kittner for BNL.

Second prize went to Stove Builders International (SBI) a Quebec based company that designed a simple, affordable stove that allowed the operator to select high or low heat output and used a low-cost control board and thermocouple sensors to ensure that the stove burned cleanly.

Second prize in the thermoelectric category went to California based Vulcan Energy, who

SBI, a prominent Canadian stove manufacturer
spent years developing automated features.
Photo: Kittner for BNL.

developed a thermoelectric generator for the gravity fed Wiseway pellet stove that generated an average of 123 watts, and a maximum of 139 watts, during the 2.5-hour test period. Total power output over the test period, net of parasitic losses, was 235 watt-hours.

The People’s Choice award, based on votes from the general public, went to 509 Fabrications, for their unique gravity fed pressed log stove.

Key partners in the Challenge included Olympia
Chimney, and CSIA, and NFI installers from
Winstons Chimney and  Sugarloaf Chimney.
Photo Kittner for Brookhaven National Lab.

The goal of the Woodstove Design Challenge is to demonstrate how improved designs including sensors and computer controls can make wood stoves cleaner and more efficient. The technology boom of the past few decades has largely missed the wood stove industry, yet innovation still holds great promise. 

Researchers including Brookhaven National Lab, with support from the New York State

Fred Leavitt won 2d prize in thermoelectric
with Jonathan Male, DOE, Ramesh Koripella,
Sandia National Lab and John Ackerly, AGH.
Photo: Kittner for BNL

Energy Research and Development Authority (NYSERDA), have been developing new methods for the next generation of assessment protocols for wood heating appliances. Currently, most stoves in America are tested for EPA certification with standardized fuel pieces and spacing. Research has focused on in-home use operational practices, user fueling patterns, and new real-time measurement method techniques with random loading patterns and variability in piece size to better replicate real-life conditions.   

Automated stoves that are designed and tested with this new robust cordwood test method can help improve woodstove designs and in-use performance leading to higher efficiency and lower emissions.

Les Otten of Maine Energy Systems with Julie
Tucker of the USDA Forest Service.
Photo: Kittner for Brookhaven National Lab.

A team from Stony Brook University also competed in the event with a prototype that featured a unique wood drying and preheating chamber. The stove did not win a prize but offered students a rich opportunity to engage with national stove design and testing experts. A full list of the competing teams can be found here. 

Partners for the Design Challenge include NYSERDA, the Department of Energy’s Bioenergy Technology Office, the U.S. Forest Service, the Osprey Foundation and Olympia Chimney. The automated stoves were tested by Brookhaven National Lab. A complete list of partners and sponsors can be found here.