President Kennedy’s dream for joint cooperation between nations was realized with the International Space Station. That dream should not be abandoned, writes George W.S. Abbey, former director of NASA Johnson Space Center.
"With the pressures of climate change and the urgency to incorporate alternative energy resources like wind and solar, the fixation on the purported benefits of energy transition technologies overshadows the glaring reality — an absence of strategy around identifying and quantifying other life cycle externalities, such as waste disposal or environmental impacts," write fellow Rachel Meidl and research assistant Mathilde Saada. Read more on the Baker Institute Blog.
In the push for decarbonization, "turquoise" hydrogen offers a unique, commercially viable technology that reduces CO2 emissions, argue Rachel A. Meidl and Kenneth B. Medlock III.
Rachel A. Meidl, Kenneth B. Medlock IIISeptember 23, 2021
The first step to reducing methane, Agerton and Gilbert argue, is to directly measure it. Their new Forbes post explains why inventory-based incentives that merely estimate emissions must give way to direct methane monitoring.
Circular processes cannot solve the sustainability problem, but critically implementing circularity with system-level thinking can help to urgently adopt a more resilient, regenerative model for avoiding resource scarcity while fostering economic growth, argues a Forbes piece co-authored by Rachel Meidl.
Rachel A. Meidl, Vilma Havas, Brita StaalAugust 9, 2021
Circular economy principles are oftentimes used in conjunction or synonymously with the term “sustainability.” However, although there is a relationship between sustainability and circularity, these two concepts are very different. Energy fellow Rachel A. Meidl explains the distinction in a new post for the Baker Institute Blog.
Methane emissions are both "extraordinarily bad" and "easy to fix," so why not address them now? A federal tax of $1,500 per metric ton emitted could curb and counter the impact of U.S. methane emissions, argues this commentary piece.
The atmospheric concentration of sulfur hexafluoride (SF6) — the most potent greenhouse gas known to humanity and a chemical that is frequently used as an electrical insulator — is growing and thereby contributing to global warming. In a post for the Baker Institute blog, experts from the Center for Energy Studies explain whether we should be worried and what can be done to mitigate the risks.
Rachel A. Meidl, Michelle Michot FossMarch 25, 2021