Addressing the Urgent Need for Direct Climate Cooling: Rationale and Options
A new paper highlights the need for direct climate cooling Addressing the Urgent Need for Direct Climate Cooling: Rationale and Options (essopenarchive.org)
AMR Press Declaration
AMR has released a press declaration which you can find here: AMR AG has Developed a Technical Solution to Cool the Global Climate by 0.5 – 1.0 °C within 20 – 25 Years (einpresswire.com)
New Article in Favour of Methane Removal
Atmospheric methane removal may reduce climate risks – IOPscience
GeoRestoration – a new concept
We at AMR have discussed the concept of GeoRestoration for a while and can now present a paper which decribes in detail how this concept fits in with the current climate debate. https://amr.earth/wp-content/uploads/2023/12/GeoRestoration.pdf
GeoEngineering and AMR
Atmospheric Methane Removal is often classified as a category of so-called “GeoEngineering”. Therefore we have developed a standpoint regarding all Direct Climate Cooling methods. In 2022 we have created a website named Cool-Planet.Earth and in the past months have written a paper regarding GeoEngineering which we want to publish now. Enjoy reading! https://amr.earth/wp-content/uploads/2023/12/Geoengineering-standpoint-AMR.pdf
New article shows flaws in current atmospheric science. Cooling interventions are needed.
Bad science and good intentions prevent effective climate action (eartharxiv.org) Quote: Even if all emissions stopped tomorrow, current committed warming will raise global temperatures by 2°C –5°C above pre-industrial levels by 2100 (Cheng et al., 2022; Huntingford et al., 2020; von Schuckmann et al., 2020; Zhou et al., 2021; Hansen et al., 2023). These are […]
New article on atmospheric methane removal
A good overview of the current developments in the field. Wang, Jin, and Qinghua Peter He. 2023. “Methane Removal from Air: Challenges and Opportunities” Methane 2, no. 4: 404-414. https://doi.org/10.3390/methane2040027
New article on methane removal with chlorine
Catalytic efficiencies for atmospheric methane removal in the high-chlorine regimeLuisa Pennacchio, Maarten van Herpen, Daphne Meidan, Alfonso Saiz-Lopez, Matthew S. Johnson https://chemrxiv.org/engage/chemrxiv/article-details/652666e08bab5d20551aaaa1 Abstract Catalytic production of chlorine atoms from iron salt aerosols (ISA) has been suggested as a means of achieving atmospheric methane reduction (AMR). The feasibility of this approach its efficiency and the optimum […]
New study regarding natural AMO
This study in PNAS, Publications of the (US-American) National Academy of the Sciences, again by the group around Matthew Johnson and Maarten van Herpen, plus many others, confirms natural atmospheric methane oxidation and provides measurements regarding the scale of this mechanism. https://www.pnas.org/doi/10.1073/pnas.2303974120
New study confirms EAMO is possible
This is possibly a breakthrough for our technology. An international team of scientists have modelled natural methane oxidation and come to the conclusion that adding chlorine to the atmosphere could in fact cool the climate by up to 0.6 degrees. Even though chlorine cannot be released into the atmosphere directly, the model proves that we […]