Identifying and Fixing Natural Gas Leaks in Cities, with Dr. Rob Jackson

Methane in the Atmosphere: A Serious Risk

Many of the solutions we often hear about when it comes to reducing greenhouse gas emissions revolve around reducing carbon emissions, as carbon dioxide (CO2) is the primary greenhouse gas emitted by human activities. Methane, however, is the second most common greenhouse gas, emitted through agricultural practices, landfill waste, coal mining, and oil and gas operations. While methane generally receives less attention than carbon dioxide when it comes to climate solutions, recent studies have shown that it is a more potent greenhouse gas than carbon dioxide. According to the United Nations Economic Commission for Europe, methane has a global warming potential 28-34 times higher than CO2 upon emission, which increases to 84-86 times over a 20-year period. 

How does methane enter our skies?

The concentration of methane in the atmosphere has more than doubled over the past century. Both everyday infrastructure in older cities and major leaks at oil and gas fields add to the quantity of methane into the atmosphere. As for the source of these leaks, they are largely caused by equipment failures or faulty pipes and vessels. 2,595 gas incidents have been reported in the US from 2010 to 2021, adding up to 26.6 billion cubic feet of methane gas emitted. Methane impacts both the climate system and public health; breathing methane can cause damaged airways, lung diseases, asthma attacks, increased rates of preterm birth, cardiovascular morbidity and mortality, and heightened stroke risk.  

What can we do?

Mining operations can be improved to reduce methane leaks and oil and gas operations can greatly reduce emissions throughout the system. As our tools of measurement and technology improve, the world has realized the greater need to attack methane emissions, which led to the Global Methane Pledge in 2021. In this pledge, 158 countries and the EU pledged to make a distinct effort to reduce global methane emissions by at least 30 percent from 2020 levels by 2030. 

Part of reducing methane emissions involves switching from fossil fuels to electricity generated from renewable sources.  According to Environmental specialist and Stanford professor Dr. Rob Jackson, our skies will become cleaner once we switch to cleaner, electrical energy sources, including electric heat pumps to cool and heat our homes, electric water heaters, and especially electric stoves. According to the Journal of Environmental Science and Technology, methane emissions from gas stoves in America—when scaled to the 20-year global warming potential of the gas—were “comparable to the carbon dioxide emissions of approximately 500,000 gas-powered cars.” Health-wise, a study conducted by Stanford’s Doerr School of Sustainability and PSE Healthy Energy found that “children who live in homes with gas stoves had a 24% higher risk of lifetime asthma and a 42% increased risk of having asthma currently.” Dr. Jackson says that making the switch to induction stoves is not only energetically cleaner and prevents the likelihood of gas leaks, but it also prevents us from being exposed to toxic pollutants such as nitrogen oxides and benzene gasses that come from gas stoves.

Some potential drawbacks: the cost of electricity

While induction stoves and a cleaner, electrical society sounds optimal, there are some challenges and barriers to making this a reality. First of all, not every person can afford to implement an induction stove and replace their functioning gas stove, as home renovations, rewirings, and big purchases such as a new stove cost a great deal of money. In this way, income inequality plays a major role in the way climate change impacts different people in society. Dr. Jackson uses the example of a person living in a lower-income community; surrounded by older, poorly-maintained appliances, people in these types of homes often breathe dirtier air indoors than outdoors. This is why Dr. Jackson proposes that the shift to clean energy be gradual; fueled by regulations and government support. Without social support, equal access to cleaner energy cannot be achieved.

In terms of major gas leaks, change is hard to make as an individual. According to the Environmental Defense Fund, the best thing we can do is to fight for national policy to repair and prevent leaks wherever they occur: whether at mining facilities or under our sidewalks. This is a difficult task, as all individuals can do is push for political action, however agreements such as the Global Methane Pledge seem to be steps in the right direction.

Who is our guest?

Dr. Rob Jackson is a professor and senior research fellow at Stanford University, and author of Into the Clear Blue Sky, a novel on climate solutions. His lab focuses on using scientific knowledge to shape climate policies and reduce the environmental footprint of human activities. Currently, he chairs the Global Carbon Project, an effort to measure and control greenhouse gas emissions.

Resources

• US Environmental Protection Agency: Overview of Greenhouse Gases
• UNECE: The Challenge
• MIT Technology Review: Methane leaks in the US are worse than we thought
• PIRG: Methane Gas Leaks
• Environmental Defense Fund: How Methane Impacts Health
• Global Methane Pledge: About the Global Methane Pledge
• Journal of Environmental Science and Technology: Methane and NOx Emissions from Natural Gas Stoves, Cooktops, and Ovens in Residential Homes
• American Chemical Society Publications: Gas and Propane Combustion from Stoves Emits Benzene and Increases Indoor Air Pollution
• Environmental Defense Fund: How to stop natural gas leaks

Further Reading

• The New York Times: Did I Turn Off the Stove? Yes, but Maybe Not the Gas

For a transcript, please visit https://climatebreak.org/identifying-and-fixing-natural-gas-leaks-in-cities-with-dr-rob-jackson/