Hydraulic fracturing, or fracking, has falsely been assigned a bad stigma. But this drilling technique to collect oil and natural gas has some extremely positive effects. Here are four results of...
A nationwide 95 RON octane standard for vehicles can deliver major carbon reductions in the nation’s light-duty auto fleet faster and at a lower cost than any other proposal being considered by policymakers right now, especially policies seeking to force nationwide vehicle electrification.
U.S. petrochemical manufacturers are at the forefront of research and development into cutting-edge solutions to give new life to used plastic products. Leveraging their in-depth understanding of plastics’ molecular composition and the manufacturing process itself, AFPM members are investing in recycling technology, infrastructure and partnerships that will reduce mismanaged plastic waste by applying unlocking its value as a feedstock.
Governmental and public interest in carbon capture, utilization and storage (CCUS) is on the rise. Federal officials, labor unions and experts – including the International Energy Agency – have all identified CCUS as critical to achieving significant near-term reductions in greenhouse gas emissions.
With recent plastic waste legislation from New York and New Jersey making headlines, we sat down with AFPM Senior Director of Petrochemicals, Transportation and Infrastructure Rob Benedict to discuss the petrochemical industry’s role in reducing plastic waste, new technological breakthroughs and how AFPM analyzes plastic waste policy proposals.
Polyester soccer jerseys, polyethylene swim lane dividers, carbon track shoe insoles, and the jet fuel that moves athletes all over the world. These are just a few examples of the and fuels and petrochemical-based materials that play an irreplaceable role in summer sports.
McKinsey released a new report outlining the emissions profiles of plastic vs. non-plastic alternatives in multiple use cases. They found that in nearly every case examined, plastics are responsible for less greenhouse gas emissions throughout their lifecycle than alternative materials.
