Steven Chu (Stanford Professor) – Climate change and low cost path to clean energy (Sep 2016)
Chapters
Abstract
Navigating the Energy Transition: Insights from Secretary Stephen Chu’s Lecture on Climate Change and Clean Energy – Updated Article
Introduction:
Secretary Stephen Chu, hosted by Stanford University and Johns Hopkins University, delivered a comprehensive lecture on climate change and clean energy. The event included opening remarks, an introduction of the Wank Lecture Series, and a brief biography of Professor Chu. After the lecture, there was a closing reception at the Levering Complex.
Introduction of Secretary Stephen Chu:
Professor Julian H. Krolik, from the Johns Hopkins University Department of Physics and Astronomy, formally introduced the keynote speaker, Professor Stephen Chu. Chu, welcomed by host Ralph, was recognized for his contributions to science and technology policy, environmental research, and humanitarian causes at a lecture series in honor of the late Carolyn and Edward Wank.
Chu’s Scientific Achievements:
Chu’s Nobel Prize-winning research at Bell Labs focused on laser cooling techniques, revolutionizing our understanding of atomic physics and quantum electronics. This laid the foundation for his later work in energy policy.
Chu’s Leadership in Energy Policy:
As director of the Lawrence Berkeley Lab and later as U.S. Secretary of Energy, Chu steered a significant shift towards alternative energy sources and policy, emphasizing the importance of renewable energy research and technology, including the initiation of ARPA-E.
Addressing Climate Change:
Chu emphasized the escalating risks of climate change, highlighting a concerning rise in global temperatures and advocating for a deeper understanding of climate change through ocean temperature measurements.
Ocean Heat Absorption:
Chu discussed the critical role of oceans in climate dynamics, noting their seasonal temperature variations and the pivotal function they play in absorbing excess heat, contributing to temperature plateaus.
Glacier Melting and Sea Level Rise:
The lecture addressed the alarming trends of glacier melting and sea level rise, supported by anecdotal evidence and satellite data, and underscored the historical correlation between high carbon dioxide levels and significant sea level increases.
Carbon-14 Clock:
Chu presented carbon-14 as a crucial tracer in studying atmospheric carbon, demonstrating how changes in its levels can signal disruptions in the carbon cycle, particularly due to human activities like fossil fuel burning.
Fossil Fuel Burning and H-Bomb Testing:
The impact of fossil fuel burning on atmospheric carbon-14 levels was explored, along with the significant increase in these levels due to nuclear bomb testing in the mid-20th century.
Climate Change and the Urgency of Action:
Steven Chu emphasizes the need to confront climate change, drawing parallels to the public health campaign against smoking. The data on rising temperatures and extreme weather events is robust, indicating an increase in the frequency and severity of these events. The Intergovernmental Panel on Climate Change (IPCC) provides climate scenarios projecting future greenhouse gas emissions and their impact on global temperatures.
Cumulative Carbon Emissions and the 2-Degree Target:
Cumulative carbon emissions, rather than annual emissions, are a more accurate measure of the climate change challenge. The world has already exceeded the emissions threshold for a two-thirds chance of staying below a 2-degree Celsius temperature increase. The current emissions trajectory indicates a high probability of surpassing even higher temperature thresholds, with significant consequences.
Smoking as an Analogy for Climate Change:
The analogy between smoking and climate change highlights the delayed health effects of both behaviors. Just as smoking led to an increase in lung cancer deaths decades later, the full impact of carbon emissions on climate change will be felt by future generations. The public health campaign against smoking serves as a model for addressing climate change through public education and policy changes.
Transitioning from Fossil Fuels to Better Solutions:
The transition away from fossil fuels is necessary, but it must be accompanied by economically viable alternatives. Stranded assets, such as untapped oil and gas reserves, are a concern, but they can be avoided by finding better solutions that make fossil fuels obsolete. The economics of the transition are crucial, as countries are reluctant to leave valuable resources in the ground without viable alternatives.
Additional Insights:
Chu highlighted the division of the United States into climate zones to study regional variations, the economic considerations in reducing carbon emissions, the challenges in transitioning to cleaner energy, and the advancements in wind and solar power technologies.
Energy Storage Challenges:
Chu stressed the current limitations in energy storage, particularly for seasonal or multi-month periods, and the challenges in grid integration and transmission infrastructure for renewable energy.
The Current State of Energy Storage:
The lecture touched upon the various energy storage technologies, including pumped hydro storage and thermal energy systems, and the declining costs of batteries, essential for a sustainable energy future.
Economical Solutions:
Energy efficiency is the best low-cost solution. California began with appliance standards in the 1970s. Efficiency standards reduced both purchase price and cost of ownership for appliances. Economists were skeptical of the data showing cost reduction with efficiency standards.
Refrigerators:
Refrigerator costs declined 28% for each doubling of production. Energy savings from efficient refrigerators are equivalent to 67 gigawatts of nuclear reactors.
Airplanes:
The Boeing 787 uses only 18% of the fuel per passenger mile as the Boeing 707. The Boeing 777 and the bar-tailed godwit can both fly nonstop 1,100 kilometers. Airplanes and birds both require high-density fuel for long-distance travel.
Energy Security and Carbon Recycling:
Chu advocated for transforming clean electricity into hydrogen, oxygen, and carbon dioxide, emphasizing the importance of synthesizing liquid hydrocarbons using clean energy sources and capturing carbon dioxide for recycling.
Environmental Concerns in Natural Gas Extraction:
Chu addressed the environmental risks associated with fracking and shale gas extraction, including the link between fracking and earthquakes, methane emissions, and the need for improved drilling practices and responsible regulation.
Impacts of Climate Change: Sea Level Rise and Water Scarcity:
Chu presented evidence that the increase in carbon dioxide levels in the atmosphere is primarily caused by human activities, as the ratio of carbon-14 to carbon-12 has been decreasing due to the burning of fossil fuels. The impact of sea level rise is significant, with about one-tenth of the world’s population living within 10 meters of sea level. In California and the Rockies, climate change is expected to bring spring rains instead of spring snows, leading to reduced snowpack and water storage. The limited capacity of reservoirs and the inability to increase their height due to environmental concerns exacerbate the water shortage issue. Increased irrigation needs due to hotter spring and summer weather further strain water resources.
Extreme Weather Events:
Recent heavy rainfall events in Louisiana and East Texas illustrate the increasing frequency of extreme weather events. One in a thousand-year rainfall events are becoming more common, challenging traditional statistical models. Chu presents research on the distribution of rainfall patterns, particularly in the tails of the distribution. The study found that beyond one event every 30 years, rainfall distribution follows a single exponential decay, rather than a Gaussian distribution. This finding has implications for understanding and predicting extreme weather events.
Wind and Solar Energy:
The United States, Canada, and Mexico have tremendous wind energy potential. Taller wind turbine hubs and larger blades are being used to increase energy output. Offshore wind turbines are even larger, with capacities of up to six megawatts. Solar panels are also becoming more efficient and affordable. The prices of wind and solar energy are rapidly decreasing due to technological improvements and competitive bidding.
Notes by: datagram