Chimney Cherry

What makes your solution innovative?

The Chimney Cherry scales down pre-existing industrial electrostatic precipitation filtration technology to a compact and economical level. While one other company sells filtration systems using ESP technology, our solution approaches the problem from a user-centric perspective. We will succeed where our competitors failed to penetrate the Alaskan market because we understand why our users actually burn wood: self-reliance and energy independence. Unlike our competitors, the Chimney Cherry is self-contained, not requiring expensive electrical work or holes drilled in their roof that will hamstring users with increased energy costs. The unit powers itself with a thermoelectric generator, extracting power from the waste heat of the chimney. People burn wood for a reason - the high energy prices from traditional sources. Our product frees users from having to choose between heating their homes economically and poisoning themselves and their neighbors with toxic emissions. 

What are your impact goals for the next year and the next five years, and how will you achieve them?

• Our impact goals revolve around 3 main topics: good health, sustainability and clean energy, and climate action. Our device will remove harmful particulates before they can pollute the air and harm people, all while being powered with renewable energy.

• For the next year:

  • Design operates successfully on entirely renewable sources. It does not need to be plugged into an outlet to function.

  • Pilot on an actual wood stove in Fairbanks. Track chimney particulate emissions at ten minute intervals from one month prior to installation through the subsequent winter months.

  • Improve education on best wood burning practices. Decrease “green” (wet) wood burning in the Fairbanks North Star borough by 10%.

• Next five years

  • Run the system through an entire winter season with renewable energy.

  • 90 % of the wood stoves in Fairbanks have a Chimney Cherry.

  • Fairbanks air quality is within Particulate Matter EPA attainment levels in the winter season.

  • 5% decrease in rates of asthma and heart disease in the Fairbanks North Start Borough.

How are you measuring your progress toward your impact goals?

• For the next year

  • Working standalone prototype functions to reduce over 90% of emissions and runs off of TEG when the stove is in use. 

• Next five years:

  • Fairbanks (after a decade) is no longer a Particulate Matter non-attainment zone by the EPA. This requires ensuring that the average yearly concentration of PM2.5is below 12 micrograms per cubic meter and that the yearly 98th percentile concentration over a 24 hour period is below 35 micrograms per cubic meter.

  • Hospital admittance due to respiratory and cardiovascular conditions decreases by half.

What is your theory of change?

When we first started ideating in the problem space of poor air quality in Fairbanks, we did not immediately realize the global impact a residential ESP will have. For our company the Chimney Cherry, the theory of change would be as follows:

1. Primary Activity: Innovating a completely renewably powered electro-static precipitator that would rest on the top of chimneys in homes with wood-burning stoves.

2. Output: The ESP prevents the harmful PM 2.5 particles from exiting through the smoke in the chimney.

3. Short-term Outcomes: Instantly we see little to no smoke exiting from chimneys. 

4. Mid-term Outcomes: Within the first few months, we see (1) visibly clearer air (2) a significant reduction in the number of wood-stove owners being fined for smoke exiting their homes (3) an increase in the amount of savings set aside for other essentials.

5. Long-term Outcomes: Significant improvement in community wide health issues related to respiratory illness. Positive affect on global cooling by redirecting soot from sticking to polar ice caps.

Describe the core technology that powers your solution.

Our product is a renewably powered Electro-Static Precipitator (ESP). Electro-Static Precipitation occurs when particulate matter passes through a strong electric field and collects on a surface (or drops out of the field). ESPs are used extensively at the industrial scale in smoke stacks (e.g. power plants) but have only recently spread to the consumer/residential market. Small-scale ESPs take a low-power input and run it through a voltage step-up module that dramatically increases the voltage differential across the field while simultaneously reducing the electric current flow. For an ESP inside of a structure (e.g. chimney), an exposed electrode is lowered inside the tube (serving as the positive cathode) and a field directs charged particulates toward the surface of the chimney (serving as the negative anode). As the particulates pass through the field, they become charged, and settle on the chimney wall. We can vary the reduction of emitted particulates based on the speed of the gas passing through the chimney and the strength of the ESPs field.

ESPs already widely exist on the industrial market and two companies have emerged on the residential market in Europe. Our product is innovative because it doesn’t require access to an outside power source. Using a set of Thermo-Electric Seebeck modules placed on the surface of the chimney, we generate power based on the differential between the chimney gas and outdoor air temperatures. Given that the ESP only requires 15-30 Watts of input power, we are able to generate necessary power using less than 20 Seebeck modules.

Which of the following categories best describes your solution?

A new application of an existing technology

Please select the technologies currently used in your solution:

• Imaging and Sensor Technology
• Manufacturing Technology
• Materials Science

Which of the UN Sustainable Development Goals does your solution address?

• 3. Good Health and Well-being
• 7. Affordable and Clean Energy
• 13. Climate Action

In which countries do you currently operate?

• United States

In which countries will you be operating within the next year?

• United States

What type of organization is your solution team?

Not registered as any organization

How many people work on your solution team?

6

How long have you been working on your solution?

8 months

What is your approach to incorporating diversity, equity, and inclusivity into your work?

The co-founders of the company come from diverse backgrounds. We are a team composed of students from 4 different schools at USC, with majors ranging from engineering, economics, public policy, and film production. Members of our team belong to a variety of ethnic identities such as Asian, South Indian, Middle Eastern, and Spanish Filipino. We took steps to understand bias and build awareness by encouraging every member to review and analyze their own personal assumptions about not only our team, but also the customer base and target users. We encourage our team members to share their feedback by filling out anonymous forms to get a better understanding of how people are feeling about their teammates and to pinpoint any interpersonal conflict that may be arising. This allows each one of us to make smarter decisions and eliminate any patterns of biases. In addition, we are aware and acknowledge a variety of upcoming religious and cultural holidays. When closing out a team meeting, we often ask people how they plan to celebrate the holiday and invite each other to the event. We also made sure to be flexible when scheduling meetings for those days.

What is your business model?

Our team’s key customers are the libertarian wood-stove owners within the Fairbanks North Star Borough of Alaska. Fairbanks, Alaska had the worst air quality of every city in the United States in 2021 (and 2018). The EPA has cracked down on the local and state governments to bring the locality back to “attainment” status. This has resulted in massive wood-stove “change out” funds to incentivize residents to switch to fuel oil or alternative sources of heat, “no-burn” notices during particularly smoggy days, and fines to those who burn wood excessively. Alaska’s state motto is “The Last Frontier” and many residents move there to live independently. Approximately ⅓ of Fairbanks’ residents burn wood to heat their homes and our user interviews have demonstrated that many of them have no intention of changing their behavior, regardless of demands by government agencies or environmental groups. We seek to neutralize this customer segment’s perception of government overreach and prevent them from getting fined with our product.

Our product is a device that is installed on top of a chimney and reduces emitted pollutants by 90-99%. In the interest of protecting our customer’s privacy and safety, the installation process doesn’t require our team to enter their home or breach their roof in any way (a design integration derived from discussions with many users). Using a Thermo-Electric Generator that is powered by the temperature differential between the heated gas in the chimney and the cold Alaskan winter air, the device generates its own source of electricity without having to plug into home power. As such, this product will satisfy our customers’ desires to not be hassled by the government without having an increase in their bills nor disruption in lifestyle. Simultaneously, our beneficiaries (the public institutions of Fairbanks) are able to reduce the locality’s airborne emissions.

Our product is provided after a one-time purchase. We will facilitate installation and offer a complimentary cleaning going into the first winter season to ensure safety protocol is maintained. We will train technicians and contract chimney sweeps to perform maintenance. We are still conducting surveys to determine pricing, but it will be in the $500-$750 range. We will be contracting local manufacturers in the Anchorage metropolitan area (e.g. TriJet) to produce our product and ship to Fairbanks. We have made preliminary agreements with users interested in testing our ESP and stores interested in selling them.

Do you primarily provide products or services directly to individuals, to other organizations, or to the government?

What is your plan for becoming financially sustainable?

As a social enterprise, we value having a strong internal structure that can provide a continuous stream of work to create the Chimney Cherry’s intended impact of reducing 60-80% of the air pollutants in Fairbanks and similar areas. In alignment with the goal of social impact, our sustainable business model would generate both social value and revenue for our company to operate towards pushing our goal forward. 

One of our first priorities would be researching the essential manufacturing needs of the renewable powered ESP to identify the minimum-viable product that we need to build in hopes of essentially subsidizing building expenses. Our second-most priority is financial organization. We use the envelope method to set aside our budget in three specific categories: one for R&D, one for internal operation, and one for external outreach. Once we run out of funds in a specific category, we can identify exactly why we need to raise more money and what it would be used for. 

Our primary source of revenue would be at first selling the Chimney Cherry product direct-to-consumers with wood-burning stoves. Although the Chimney Cherry (ESP) itself is a one-time purchase, we will offer cleaning and maintenance services at a recommended 2-3x per year to each household. Once the product gains more recognition, we will partner with local trusted wood burning stove suppliers (such as The Woodway in Fairbanks who have already agreed to carry our product in store) to form a licensing agreement that can allow us to sell a Chimney Cherry with each woodstove. Why would the suppliers work with us? We found that suppliers truly care about the environment and want people to properly take care of their woodstoves. Having our renewable ESP installed, consumers start to care a lot more about wood burning stoves because it offers them free heating with no concern of fines from the EPA. With a bigger emphasis back on cheap wood burning stove heating, there is an incentive to train customers on the importance of burning dry wood so their chimney doesn’t get clogged in soot and catch on fire.

Share some examples of how your plan to achieve financial sustainability has been successful so far.

The USC Viterbi Innovations in Engineering & Global Design program has provided $3,000 in funding plus two fully funded trips to Alaska for user research and prototyping. Additionally, we are finalists in the Min Family Entrepreneurship Challenge incubator and will be competing in their pitch competition for $45,000 in April. Most recently we have been selected for the Blackstone LaunchPad Fellowship which provides $5,000 for continued work on the project alongside workshops and mentorship. We were chosen for this prestigious experience out of hundreds of teams.