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  • The Fall of the Big, Bad Boiler: The Latest Climate Technology Infiltrating New York City

    The Fall of the Big, Bad Boiler: The Latest Climate Technology Infiltrating New York City

    By Montserrat Tang

    ~ 9 minutes

    The Hot Hell of Boilers

    As someone born and raised in New York City (NYC), I can attest to the urgent need to upgrade the city’s climate control infrastructure. Current systems are outdated and hinder the city’s ability to meet emissions goals and address global warming; the encapsulation of this problem is the boiler. A staggering 72.9% of heating in NYC comes from fossil-fuel-burning steam boilers, one of the most carbon-intensive options available. Tenants of apartments pay for the maintenance of centralized boilers without control over the temperature, leading many to open their windows in winter to release excessive warmth. This heat and the fossil fuels used to produce it are wasted, highlighting the inefficiency and impracticality of NYC’s existing infrastructure. 

    Industrial boiler room / Controlled Combustion ©

    Even when this heat remains indoors, steam boilers are only about 80-85% efficient at burning fossil fuels. Up to a fifth of a boiler’s fuel does not generate usable heat, but burning it still releases vast quantities of pollutants like CO2, exacerbating climate change. Furthermore, boilers continue to lose efficiency during their lifetimes and require frequent maintenance and replacement. While steam boiler systems were revolutionary in the 19th century, they may now become obsolete as NYC implements a technology that could change how the world thinks about climate control.

    The Cool(ing) Mechanics of Heat Pumps

    Mechanics of an air source heat pump / U.S. Department of Energy ©

    The innovation behind heat pumps comes from the mantra of use what is given; instead of generating heat through combustion, they simply move existing warmth between two places. Most of these fully-electric pumps remain functional well below 0℃, even though it may seem like there is no warmth to be moved. This operative capacity allows them to have heating efficiencies of 300-500%! Because of this, International Energy Agency partner Yannick Monschauer estimates that “Heat pumps could bring down global CO2 emissions by half a gigaton by the end of this decade.”

    Heat pumps work by operating on the Second Law of Thermodynamics (SLOT), which states that heat will move from a hotter object to a colder one. In the wintertime, the pumps pull in outdoor air and blow it over fluids (called refrigerants) held in a closed-loop system. The air transfers warmth to the cold refrigerants through SLOT, and the heated fluids turn into gas. Heat pumps can work in freezing temperatures because these refrigerants have such unusually low boiling points, allowing them to vaporize easily; one of them, Refrigerant 12, has a boiling point of just -21.64°F!

    The hot, gaseous refrigerants move into a compressor that compacts their molecules, making them even warmer. They then flow through a coil that exposes them to indoor air, and the refrigerants release their warmth inside through SLOT. As the refrigerants cool, they condense back into liquid and pass through an expansion valve, decreasing their temperature further. They move to an outdoor coil and are ready to restart the process, continuing to warm cold homes during the winter.

    Even more significantly, heat pumps have reversing valves that switch the flow of their refrigerants. These valves allow the pumps to cool homes by pushing out warm, indoor air in the summertime. Thus, heat pumps make air conditioners, boilers, radiators, and related piping unnecessary, freeing space and alleviating material and labour costs that typically get passed on to homeowners. 

    Heat pumps in NYC

    In 2024, NYC pledged to have heat pumps provide 65% of residential heating, air conditioning, and water-heating needs by 2030. This shift would drastically reduce the city’s carbon emissions from the climate control sector, which contributed to 10% of global energy-related CO2 emissions in 2021.

    This pledge is logical both environmentally and practically: having one heat pump replace two systems saves valuable space, lowers costly installation and maintenance fees, and reduces energy demands. The NYC government realized this potential and signed a $70,000,000 contract to install 30,000 window heat pumps in NYCHA buildings, better known as public housing. Two heating companies, Midea and Gradient, will provide these units.

    In late 2023, Gradient installed 36 preliminary test units in NYCHA buildings. Most NYC steam boilers, including those in NYCHA’s current system, are powered by gas with oil reserves in case of an emergency. Gradient found that their pump can lower tenants’ heating bills by 29-62% on moderate winter days compared to gas-powered boilers. Savings are as high as 59-78% compared to oil-burning boilers. In testimonials that Gradient collected, NYCHA tenants noted the heat pumps’ impressive air filtration, heating, and operational capabilities. Midea conducted similar tests and soon plans to release its heat pump for public purchase.

    The Cold Drawbacks of Heat Pumps

    Although technological faults remain, NYC is continuing its plans to install and promote heat pumps to replace its intensive, outdated systems. For one, Midea’s upcoming pump will cost ~$3,000 per unit, greatly exceeding the combined price of ~$460 for their bestselling, single-room heating and cooling systems. This is a misleading comparison, however, because heat pumps also act as heating systems. The technology can lower electricity and fuel bills over an extended period, but the current price point makes heat pumps an unaffordable investment for many households – despite government subsidies and incentives. Even the NYC government’s bulk order of Midea and Gradient pumps averages over $2,300 per unit.

    Furthering the inaccessibility of these systems, the most advanced, aesthetically pleasing, and apartment-friendly heat pumps can only heat and cool individual rooms. This means that multiple units must be purchased, installed, and powered to service a home, and each must be replaced about every 20 years. Still, NYC’s firm stance on heat pumps indicates the climate control systems’ proven efficacy, practicality, and sustainability.

    Heat Pumps Globally, and Plans for the Future

    While technological challenges remain, NYC is continuing to deliver on its pledges. This decision on heat pumps is being made throughout the United States (US). In 2022, heat pump sales in the US significantly outpaced those of gas furnaces (a type of central heating system particularly popular in North America). This lead has continued into 2025 as more people realize that the pumps can lower fossil fuel emissions and energy bills.

    This switch is not just happening in the US; countries worldwide are beginning – or continuing – to invest in these pumps. Sales in European countries have soared in the 21st-century, an accomplishment partly attributed to friendly government policy. The country with the most pumps relative to its population, Norway, has 632 heat pumps installed for every 1,000 households (the majority of these pumps service entire houses, unlike the Midea and Gradient systems discussed above). Despite this high ownership rate, 48 pumps were purchased in Norway for every 1,000 households in 2024.

    1990-2021 Heat pump sales in Europe, by technology / European Heat Pump Association ©

    In spite of these promising statistics, heat pump sales in most economies have either slowed or slumped in recent years – particularly in Europe. Analysts suspect this is due to high interest rates, rising electricity prices, low consumer confidence, and low gas prices. While this is discouraging, pump sales and ownership rates remain higher than they were several years ago.
    In 2023, New York Governor Kathy Hochul pledged to help the U.S. Climate Alliance (USCA) install 20,000,000 pumps across the U.S. The USCA is a coalition of 24 governors representing 54% of the United States population and 57% of its economy. The bipartisan group has successfully delivered on their promises of emissions reduction, climate resilience, economic growth, energy savings, and zero-carbon electricity standards that heat pumps are engineered to meet. 

    This coalition has proved that environmental action is popular, necessary, and possible. At a time when climate policy is under question, sustainable and feasible technologies – like heat pumps – need the investment of citizens, industries, and governments alike; no matter how small the scale.

    So, how can you help? Since 2022, the US government has given a federal tax credit to citizens who install efficient heat pumps. The Energy Efficient Home Improvement Credit provides eligible homeowners up to $2,000 annually. Combined with other energy-efficient credits, US citizens can regain up to $3,200 every year. These monetary incentives offer another reason to consider switching to heat pumps, and similar policies are being enacted worldwide.

    I am proud to live in a city that rewards and encourages the sustainability of citizens, corporations, and public works. As the severity and irreversibility of global warming loom, heat pumps offer us a breezy solution to polluting climate control systems. Eventually, NYC’s infamous boiler rooms and clanging pipes may become relics of the past.

    References

    About Us. (n.d.). United States Climate Alliance. https://usclimatealliance.org/
    Azau, S. (2025, July 3). Heat pump sales 14 times greater in lead countries. European Heat Pump Association. https://www.ehpa.org/news-and-resources/press-releases/heat-pump-sales-14-times-greater-in-lead-countries/
    Bray, T. (2021, October 7). How Do Heat Pumps Work? | Heat Pumps Explained. YouTube. https://www.youtube.com/watch?v=iQaycSD5GWE
    DeJong, K. (n.d.). The Difference Between Heat Pumps and Air Conditioners – Comparing Heat Pump Mini Splits with Cooling Only Systems. eComfort. Retrieved July 31, 2025, from https://www.ecomfort.com/stories/1310-Comparing-Heat-Pump-Mini-Splits-with-Cooling-Only-Systems.html
    Demir, H., Ulku, S., & Mobedi, M. (2013, August). A review on adsorption heat pump: Problems and solutions. ResearchGate. https://www.researchgate.net/publication/223303816_A_review_on_adsorption_heat_pump_Problems_and_solutions
    Ferrell, M. (2024, May 28). How does an air conditioner actually work? – Anna Rothschild. YouTube. https://www.youtube.com/watch?v=6sSDXurPX-s
    Ferrell, M., & Natividad, S. (2024, June 11). Why This Window Heat Pump Is Genius. Undecided. https://undecidedmf.com/why-this-window-heat-pump-is-genius/
    Gradient Transforms Public Housing HVAC at NYCHA. (2024, June 3). Gradient. https://www.gradientcomfort.com/blogs/news/how-gradient-is-transforming-public-housing-with-innovative-window-heat-pumps
    Heat pump. (2025, July 31). Wikipedia. https://en.wikipedia.org/wiki/Heat_pump
    Midea Packaged Window Heat Pump. (n.d.). Midea HVAC. Retrieved July 31, 2025, from https://www.mideacomfort.us/packaged.html
    New York City Climate Dashboard: Energy. (2024). NYC Comptroller. https://comptroller.nyc.gov/services/for-the-public/nyc-climate-dashboard/energy/
    New York State. (n.d.). Efficient and Emission-Free, Heat Pumps Are Gaining Popularity in New York and Beyond. New York State Energy Research and Development Authority. https://www.nyserda.ny.gov/Featured-Stories/US-Heat-Pump-Sales
    New York State. (2023). Recapping Climate Week 2023. New York State Energy Research and Development Authority. https://www.nyserda.ny.gov/Featured-Stories/Recapping-Climate-Week-2023
    New York State. (2023, September 20). Governor Hochul Announces Installation of Window Heat Pumps for New York City Public Housing Residents. Governor Kathy Hochul. https://www.governor.ny.gov/news/governor-hochul-announces-installation-window-heat-pumps-new-york-city-public-housing
    New York State & ENERGY STAR. (2024). 2024 ENERGY STAR Products Partner Meeting. New York State Energy Research and Development Authority. https://cdn.shopify.com/s/files/1/0558/4925/5070/files/NYSERDA_Room_Heat_Pump_Presentation_from_2024_ENERGY_STAR_Product_Partners_Meeting.pdf?v=1736361913United States Government. (2025, May 29). Energy Efficient Home Improvement Credit | Internal Revenue Service. IRS. https://www.irs.gov/credits-deductions/energy-efficient-home-improvement-credit
  • Cow Farts, Climate Change, and Coffee: The Unexpected Connection

    Cow Farts, Climate Change, and Coffee: The Unexpected Connection

    By Wanni Zhu

    ~10 minutes

    Though seemingly unrelated, cow farts, climate change, and coffee have unexpected connections. For starters, cow farts produce methane – and lots of it. In fact, a single cow can produce a massive amount of methane – usually 250-500 liters per day. Now, think of how many cows we have here on Earth (I’ll give you a hint: it’s 1.5 billion).  And while CO2 gets all the attention when it comes to climate change, methane has twice the effect on a per-unit basis.  But we can’t just blame climate change on the cows: other livestock also contribute to the greenhouse gases that warm our planet. Well, it’s a good thing that climate change is a widely known issue around the world, right? We know that these gases will cause the heating of the Earth, resulting in ice melting and oceans rising. However, while these problems may take years to manifest, other negative effects won’t be nearly as delayed. One impending problem is the devastation that this heat will bring to both weather patterns and crops. Warmer temperatures cause more evaporation, meaning more water in the atmosphere and more storms. Many plants, coffee included, can’t grow in these changing and unstable climates. And while scientists are doing all that they can to fix these problems, individual citizens are unlikely to act unless they understand the full extent of what is going on. 

    What Is Climate Change?

    Climate change is a universal issue backed by scientific evidence and recognized by most of the public. The Earth is warming, and rapidly at that. According to NASA, the average global temperature on Earth has increased by at least 1.1° Celsius (1.9° Fahrenheit) since 1880, and the majority of the warming has occurred since 1975, at a rate of roughly 0.15 to 0.20°C per decade. It may not seem like much, but the environment is not accustomed to adapting quickly, and if this goes on, the results could be devastating.

    Greenhouse Gases

    Greenhouse gases – let’s call them GHGs for short – are essential for our survival, but could very well be the key to our doom. The most common GHGs include water vapor, carbon dioxide, methane, and nitrous oxide. They absorb heat from the Sun and trap the warmth, preventing it from escaping into space. It’s the reason why life on Earth is possible: just like their name, these gases basically function as the glass in a greenhouse, raising the temperature so that we can thrive.

    But greenhouses can also get too hot. The more gases in the atmosphere, the more effective the heat-trapping process is. This excess heat-trapping is precisely what has been occurring over the past few decades, especially since the Industrial Revolution

    Left: Radiative forcing relative to 1750 due to the long-lived greenhouse gases CO2, methane, nitrous oxide and the synthetic greenhouse gases, expressed as watts per metre squared. Right: Global mean CO2 concentration and global mean greenhouse gas concentrations expressed as CO2-e (ppm). CO2-e is calculated from the atmospheric concentrations of CO2, methane, nitrous oxide and the suite of synthetic greenhouse gases. / Bureau of Meteorology ©

    So, what is causing the surplus of GHGs warming our Earth?

    One cause is transportation, which accounts for 14% of GHGs. Cars, buses, trains, airplanes – most of them use gasoline, diesel, or jet fuel to function. Burning these materials releases many harmful gases, the most relevant of them carbon dioxide, methane, or nitrous oxide. In some countries, like the US, transportation may be the leading cause of GHG emissions. However, there are many ways to combat these effects. You’ve most likely heard that walking and public transportation will reduce emissions, and they can! Even electric vehicles will help if you’re using clean electricity. Additionally, biofuels and hydrogen can replace fossil fuels in aviation and shipping.

    Another significant cause is electricity and heat production, which accounts for a fourth of total GHGs alone. These processes still rely heavily on burning fossil fuels, such as coal, oil, and natural gas. Now that more and more homes and buildings are being constructed, there is a higher electricity demand than before. As a result, more fuel is burned – unless we switch to cleaner sources such as wind, solar, or hydro power. Transmission losses (electricity lost as it travels over power lines) require extra generation, further increasing emissions. Therefore, improving efficiency in buildings and the power grid could reduce the demand and associated GHGs.

    Buildings can cause around 6-7% of GHG emissions. The production of materials like cement, steel, and aluminum all release gases such as carbon dioxide, and use the process of burning fossil fuels. According to the BBC, cement production contributes 8% of global GHGs. Not to mention, transporting those materials and the use of heavy machinery and equipment while building them also adds to emissions. 

    These are all large and well-known reasons that contribute to GHG emissions, so let’s take a look at something lesser known. Agriculture.

    What About Cows?

    Let’s be honest: your answer to the question about major sources of GHGs was probably not cows. But, in truth, these adorable creatures that we raise account for around 14.5 percent of greenhouse gases that warm our planet. Of course, it’s not cows alone: other livestock, including chickens, horses, pigs, and more, are all included in that percentage. We’re looking at cows specifically because a breakthrough with them could lead to resulting solutions with the other animals, and cows are large and easy to work with. 

    Cows make methane in two ways: through their digestive process and their waste.  They are part of a group of animals called ruminants, with four distinct stomach chambers. The first is called the rumen, a home for microorganisms that break down the starch and sugar from plants. The next chamber is called the reticulum, where hard-to-digest plant materials are stored. The next chamber is called the omasum, which mechanically breaks the food down further. Finally, the last chamber is called the abomasum, which absorbs the nutrients from the food. 

    In the rumen, a process called enteric fermentation takes place. This is where the previously stated microorganisms and bacteria break down complex carbohydrates and turn them into sugars. The resulting products include volatile fatty acids (used as a major energy source for the cows), as well as GHGs such as carbon dioxide and methane. The gases are released from the cows either as burps or farts.

    What Are We Doing About It?

    Trend Hunter / INTA ©

    Scientists are attempting to find the most effective solution to this large problem. There have been many different approaches to this issue, some of which are below.

    One method that has been used is seaweed in the cow feed. A 2018 study focused on mixing a seaweed species called Asparagopsis armata with hay and small amounts of molasses. Animal science professor Ermias Kebreab says they’re hoping that the seaweed can inhibit an enzyme that’s involved in producing methane in a cow’s gut, a chemical reaction discovered by researchers in Australia. After a day of eating this feed, the cow’s methane emission dropped by a drastic 50%. However, they also discovered a small dent in the amount of food consumed, as well as milk produced, due to the seaweed’s ocean smell. The next steps of this experiment are to find ways so the cows don’t notice the seaweed, and plan an experiment to use beef cattle instead of dairy cattle. Though there is still a long way before this can be implemented on a large scale, even the smallest start can lead to a bigger solution.

    Another study from 2019 discovered that selective breeding can lead to a “cleaner cow.”  Project’s leaders and co-author Professor John Williams says: “What we showed is that the level and type of methane-producing microbes in the cow is to a large extent controlled by the cow’s genetic makeup.” By selecting cattle that produce less methane than their counterparts, it may be possible to create a livestock industry that generates fewer GHGs. However, the breeding will also depend on other desired characteristics, such as meat quality, milk, and disease resistance.

    Finally, Argentina’s National Institute of Agricultural Technology (INTA) created the cow-fart-backpack (the picture shown above). This device captures the methane from these cows through a tube in their skin, which scientists claim is painless. The gas is then condensed and ready to provide power for the farm. By utilizing this gas for power, farms would consume less purchased gas and thereby reduce the total emissions.

    Where Does Coffee Come In?

    Even with all these solutions, climate change is still one of the biggest issues out there. One common outcome that you may have heard of is the rising ocean levels. Because of the rapid heating, the northern and southern reaches of the planet are warming faster than any area on Earth, with the temperatures there rising twice as much as elsewhere. This damages the fragile ecosystems there, leaving less space for animals such as polar bears, seals, and penguins to venture. Not only that, but the sheer amount of ice that is melting each year has increased ocean levels drastically. According to NASA, the ocean levels have risen 10.1 centimeters since 1992. 

    But there’s another effect that’s less heard of. Agriculture will also be greatly impacted by climate change, as some plants need very specific temperatures and weather conditions to grow. 

    Let’s take a closer look at coffee.

    Some plants need very specific temperatures and weather conditions to grow, and now that it’s all changing, the locations where the plants grow would need to change with it. For example, the coffee plant grows in temperatures of around 15-24 C, or 60-70 F. Areas such as Hawaii, Africa, and Brazil are all large coffee exporters, but if the temperatures keep rising, coffee would cease to grow in those places. Coffee plants are highly sensitive to temperature and moisture changes, and stress leads to lower yields and flavor quality. But, it’s okay, right? We can just plant coffee in different areas that are now suitable for coffee growth!

    Not quite. Coffee takes 3-4 years to grow, and needs to be processed after. Processing plants will take even longer to build, not to mention the cost and GHG emissions. So, in that time, global coffee supply shortages would lead to higher coffee prices, affecting consumers and businesses. Millions of jobs in farming, processing, transport, and retail depend on coffee, leading to unemployment in producing regions. Countries that rely on coffee exports would suffer major losses in GDP and stability.

    Now think of this on a large scale. Not just coffee, but other plants as well. The world would be in chaos: jobs lost, prices increased drastically, and businesses shut down. These are the results of climate change.

    Conclusion

    Ultimately, climate change is affecting our world fast. With the temperatures rising each year and GHG emissions growing, the world is in dire need of a solution. Though there isn’t a single “correct” fix to this problem, everything that we do to prevent it counts. The effects of climate change can be disastrous – environments are being destroyed, oceans are rising, and plants are dying. But…if everyone helps, if everyone contributes, and understands just how dangerous and volatile climate change can be…perhaps we can prevent the problem that we are causing in the first place.

    References

    Center for Climate and Energy Solutions. 2019. “Main Greenhouse Gases | Center for Climate and Energy
    Solutions.” Center for Climate and Energy Solutions. June 6, 2019.
    https://www.c2es.org/content/main-greenhouse-gases/.
    NASA. 2022. “World of Change: Global Temperatures.” Earth Observatory. NASA Earth Observatory. 2022. https://earthobservatory.nasa.gov/world-of-change/global-temperatures.
    Okshevsky, Mira. 2020. “Cows, Methane, and Climate Change.” Let’s Talk Science. March 15, 2020. https://letstalkscience.ca/educational-resources/stem-in-context/cows-methane-and-climate-change.
    “Potential for Reduced Methane from Cows.” 2019. ScienceDaily. 2019. https://www.sciencedaily.com/releases/2019/07/190708112514.htm.
    Rodgers, Lucy. 2018. “Climate Change: The Massive CO2 Emitter You May Not Know About.” BBC News, December 17, 2018. https://www.bbc.com/news/science-environment-46455844.
    “Surf and Turf: To Reduce Gas Emissions from Cows, Scientists Look to the Ocean.” n.d. NPR.org. https://www.npr.org/sections/thesalt/2018/07/03/623645396/surf-and-turf-to-reduce-gas-emissions-from-cows-scientists-look-to-the-ocean.
    “The Causes of Climate Change.” Edited by Kalina Velev. NASA. October 23, 2024. https://science.nasa.gov/climate-change/causes/.