Are you indoors? Take a listen. Notice the ambient noise around you. Are there people talking? Maybe there’s construction outside, birds chirping, a lawn mower, or kids enjoying the last month of summer. While this is a grounding exercise in meditation, that’s not the only purpose. If you focus past the sharpest noises, you may hear the persistent hum of an air conditioner, the whir of a fan, or the low hush of air from a central HVAC unit.

The built environment produces many challenges in the crusade against climate change, but it may also provide overlooked opportunities. When my cofounder and I came together in 2019, we wanted to address the abundance of carbon dioxide in the atmosphere in a way that leveraged our backgrounds in chemical engineering and climate science but also involved the communities that would be most affected by shifting conditions. One of the largest challenges of direct air carbon capture is energy usage, and another is infrastructure. We wanted to find a way to leverage existing buildings, solve more immediate pain points for people, and make carbon capture energy-positive.

The problem: buildings ‘single-use’ ventilation systems are energy-inefficient and ill-prepared for the future.

Ventilation in large buildings (commercial and multi-family residential) works on the simple assumption that outdoor air is “fresh.” Thus, ventilation is the main method used to expel contaminants from indoor air, including carbon dioxide (CO2), volatile organic compounds (VOCs), particulate matter, and pathogens, such as bacteria and COVID-19. When a building is ventilated, air is exhausted to the outside, and new air is brought in. The new air needs to be treated to the correct temperature and humidity, as well as pre-filtered so it doesn’t bring in too much of the outdoor contamination. This process is very energy intensive – the energy required to ventilate, heat, and cool new air already makes up about 40% of a building’s total energy usage and about 26% of global emissions. The amount of energy increases when additional filtration is added to prevent smoke, smog, and allergens from entering a building.

Most Americans spend 90% of their time indoors, so solving for ventilation systems’ inefficiencies, and improving indoor air, is an untapped opportunity at the intersection of health, equity, and climate that could address a massive amount of CO2 without the need for capital-intensive new infrastructure.

Increased pollution calls for new solutions.

As temperatures become more extreme and outdoor pollution levels increase, buildings consume more and more energy to ventilate and filter the air, increasing the grid pressure. Californians are familiar with this phenomenon, but Eastern Canada and the Northeast US only recently experienced a ventilation challenge related to wildfire smoke. The outdoor air was polluted, so building operators and people in their homes were encouraged not to ventilate. They were left with no way to expel the contamination originating from the indoor environment, including CO2, dust, viruses, bacteria, and VOCs from furniture and clothing. 

With no ventilation, people turn to traditional air purifiers to rid the air of contaminants, but those are not equipped to capture CO2, a proven contaminant continuously ignored by “solutions” for indoor air quality. Studies have shown that CO2 directly affects our health and well-being, and it builds up surprisingly quickly indoors. An Oklahoma teacher conducted an experiment and gathered 30 students in one classroom. With the door closed, CO2 levels reached 4,825ppm, more than six times the ideal level of CO2 concentration. In California, researchers found that about 85% of 94 recently installed HVACs in K-12 classrooms did not ensure adequate ventilation, which means higher CO2 concentration, and therefore lower grades, increased absenteeism, and worsened asthma, allergies, and lung health. Lawrence Berkeley National Lab has found that a 1000 ppm increase in indoor CO2 levels can be associated with a 10-20% increase in student absenteeism.

CO2 on its own is presenting a challenge for maintaining healthy indoor air quality. Many ventilation recommendations were written when outdoor CO2 levels were 70-80 ppm lower than they are now. Built environment regulators like ASHRAE are trying to keep up with changing outdoor conditions and prioritizing decarbonization as much as possible, but it is a difficult and slow process to amend existing regulations. Within this century, researchers predict that outdoor CO2 levels will become harmful to human cognition. Some cities are setting up “breathing rooms” for wildfire smoke, and we need to be thinking about CO2 in the same way – indoor environments will become a refuge for some, even maintaining pre-industrial CO2 levels to offer a reprieve from outdoor conditions. As with any technology based on people’s access to infrastructure, we must consider the equity implications.

CO2 capture: the future of health and equity.

Indoor CO2 capture can address the health effects described above, but it can also function as a positive feedback on building energy usage and operating costs. When combined with other types of indoor air purification, indoor CO2 capture has the potential to save 36-72% of ventilation loads during peak cooling months. Reduced indoor CO2 levels also hold the potential to enhance productivity, a factor that would outweigh the expenses of any retrofit for companies concerned about their bottom line.

From a climate justice perspective, poor indoor air quality disproportionately affects marginalized communities with higher air pollution rates, access to older and more obsolete infrastructure that consumes more energy, and increased needs for cooling. We have the opportunity to not only reduce our carbon footprint, but to improve millions of people’s health, provide access to better education, and enable building owners to direct the savings to facility improvements, or other investments that directly benefit communities that have been historically left behind.

Everything counts! From audit to retrofit. 

Eighty percent of buildings that will exist in 2050 already exist. There are plenty of solutions out there that do not require ripping out existing infrastructure to start reducing CO2 and improving health.

Measuring energy consumption is the first tangible step toward reducing energy use. There are several solutions to measure energy inefficiency in buildings: 

• Kestrix uses drones and AI to identify energy leaks and spot retrofit needs.

• AccuEnergy designs breaker panel metering for industrial customers.

• Bayou Energy provides the digital infrastructure for energy providers to help customers save money by switching to clean energy. 

• Educational resources for buildings and facility managers to audit their HVAC efficiency, provided by organizations such as ASHRAE, USGBC and the Green Building Alliance.

• Measurement, reporting and verification (MRV) platforms are also essential players to show progress on climate goals and unlock further financing of climate solutions. 

At Carbon Reform, we took the path of designing a technology that taps into the key ingredients of carbon capture already present in HVAC systems: moving air, concentrated CO2, and excess energy usage. Our Carbon Capsule attaches to the return air of an HVAC system, diverting the air and purifying it from unhealthy aerosols, permanently sequestering CO2 in the process.

Activism is paramount; technology won’t solve the whole problem.

Here are ways you can easily support this air quality solution: 

• Support local regulation that induces on-site energy efficiency upgrades, like the NYC Law 97. 

• Talk to your office building manager about the IRA Section 179D, an energy efficiency tax deduction for commercial building owners. 

• Educate university or school teachers about the importance of air quality in classrooms.

If you’d like to talk to us about energy efficiency in buildings, decentralized carbon capture, and democratizing access to clean air, please reach out to team@carbonreform.com. 

🍿 The Lean Back

Watch the latest installment of Unf*cking the Planet from our friends at Pique Action.

🎙️ My Climate Journey Podcast

🔒 Cody sat down with Alan Leung, SVP of Threat Intelligence on the Global Security team at Macquarie Group. They cover a range of topics, starting with a framework for how to think about systemic climate risk, climate change-influenced conflict, national responses to the energy transition, and how Alan thinks adaptation and resiliency responses will evolve. Listen to the episode here.

💰 In Jason’s Capital Series, we heard from Steve Simon, the founder of Simon Equity Partners and owner of the Indiana Pacers. He might not fit the mold of a conventional guest for a climate podcast, but his behind-the-scenes journey and engagement with climate-related issues offer a truly inspiring narrative. Tune in to the Capital Series here.

👩‍💻 Climate Jobs

For more open positions, check out the #j-climatejobs channel in MCJ Slack as well as our MCJ Job Board.

• Senior Mechanical Engineer at Charm Industrial (San Francisco, CA)

• Senior Estimator at Heirloom (Houston, TX)

• Software Engineer at Hoxton Farms (London)

• Software Engineer at Kopperfield (Remote)

• IT Support Technician at LevelTen Energy (Seattle, WA)

• Lead, Carbon Markets (Policy/Strategy) at Opna (London, UK)

• Carbon Project Advisor at Patch (San Francisco, New York City or London)

• Senior Software QA Engineer at Sense (Cambridge, MA)

• Executive Operations Coordinator at Sublime Systems (Somerville, MA)

• Country Manager (Australia) at Terra.do (Remote)

✨ Community Highlights

🎙️ My Climate Journey x CTVC - LIVE Podcast Recording! Join MCJ Collective Partner and My Climate Journey co-host, Cody Simms, for a special LIVE podcast event to kick off NY Climate Week on Monday, September 18. Cody will share the stage with the founders of CTVC, Sophie Purdom and Kim Zou. The podcast recording will be followed by introductions from Future Climate Venture Studio’s newest cohort of climate tech founders, plus a happy hour with drinks and appetizers. Space is limited. RSVP here.

🗓 Climate Events

Click the event title for details & RSVP info. For more climate events, check out the #c-events channel in MCJ Slack.

🗽 MCJ New York Summer Drinks: Founders & Funders: Calling founders, funders, and MCJ members to our August happy hour on CitizenM's beautiful rooftop. (8/17)

🍻 MCJ Boston Meetup: Casual meetup with no set agenda. Anyone interested or involved in climate is welcome! (8/17)

⚡️ Monthly Idea Jams - Energy: Two presenters will pitch their ideas to the group, and attending community members will provide their feedback. (8/18)

🥂 MCJ Portland Happy Hour: Everyone is welcome, irregardless of your experience in the climate tech space. Leone will be in town! (8/18)

👋 Community Welcome Call: ​Connect, share and learn with members. (8/24)

🍺 MCJ SF Climate Tech Meetup: Mingle, share climate journeys and check in on what we are looking for and have to offer over some beers. (8/24)

🍔 MCJ Seattle Meetup: This August event is focused on alternative proteins as a climate mitigation solution. (8/24)

📚 MCJ Book Club: Saving Us by Katharine Hayhoe: We'll discuss the ideas presented in the book. (8/26)

🚺 Women in Climate Meetup: Monthly meetup for women who work in, or want to work in, climate. (8/30)

The MCJ Collective Newsletter is a free weekly email curating news, jobs, My Climate Journey podcast episodes, and other noteworthy happenings in the MCJ member community.

💭 If you have feedback or items you’d like to include, feel free to reach out.

🤝 If you’d like to become an MCJ community member, apply today.

💡 Have a climate-related event or content topic that you'd like to see in the MCJ newsletter? Email us at content@mcjcollective.com