Jeff Erikson of the Global CCS Institute shares thoughts on top trends in carbon management and discusses goals for the Carbon Management Technology Conference.
Carbon Capture & Storage
The latest issue showcases the current thinking related to the reduction of carbon emissions, the utilization of CO2 that can ameliorate its presence and provide useful products, and storage options.
Stanford University's Curt Fischer revisits his thoughts from 2008 on chemical engineering's evolution and future.
The International Energy Agency reports that energy-related emissions totaled 32.5 gigatons in 2017, an increase of 1.4% from the previous year.
ExxonMobil's Vijay Swarup shares his thoughts on chemical engineering's evolution and future, with an eye on energy needs.
Imagine a technology that could capture atmospheric carbon dioxide, reduce carbon dioxide emissions, reduce the alkalinity of industrial waste, and generate useful materials — all in one proc
Without the existence of carbon pricing, any company bold enough to develop carbon sequestration technology has to find a creative business model as a workaround.
When it opened in October 2014, SaskPower’s $1.5 billion Boundary Dam carbon capture and storage (CCS) plant was the world's flagship demonstration on the frontier of clean-tech innovatio
Researchers at Rice University have discovered an inexpensive derivative of asphalt that is highly effective at capturing carbon dioxide from natural gas wells.
All eyes are on Texas as NRG Energy breaks ground on a $1 billion carbon capture retrofit at the WA Parish power plant, the largest fossil fuel plant in the US.
When SaskPower's carbon capture plant is fully operational, it will capture 1 million tons of CO2 a year – about 95% - and have a 110 MW-generating capacity.
Field tests conducted by US DOE's Pacific Northwest National Laboratory in Washington aim to return carbon dioxide to the earth by injecting it into underground basalt formations.