Exxonmobil research and engineering company
Exxonmobil test engine (extended version)
C10G 45/64 – Hydrocarbon oil refining using hydrogen or hydrogen-generating compounds to alter the structural skeleton of some of the hydrocarbon material without cracking the other hydrocarbons present, for example, lowering the pour point; Standard paraffin hydrocracking is characterized by the use of a catalyst containing crystalline alumino-silicates, such as molecular sieves.
C10G 45/02 – Hydrogen or hydrogen-generating compounds are used to remove hetero atoms from hydrocarbon oils without altering the skeleton of the hydrocarbon or cracking into lower boiling hydrocarbons; Hydrofinishing is a term used to describe the process of
Separation of gases or vapours; recovery of toxic solvent vapours from gases; chemical or biological purification of waste gases, e.g. vehicle exhaust gases, smoke, fumes, flue gases, or aerosols, by adsorption, e.g. preparative gas chromatography with stationary adsorbents
Separation of gases or vapours; recovery of toxic solvent vapours from gases; chemical or biological purification of waste gases, e.g. vehicle exhaust gases, smoke, fumes, flue gases, or aerosols, by adsorption, e.g. preparative gas chromatography
Recognizing and sustaining process control value
In the series Revisiting the Future of Chemical Engineering [Interviews], this is number 23 out of 29.
2012 r&d council of nj exxonmobil research & engineering
ExxonMobil Science & Engineering Company’s vice president of research and development is Vijay Swarup. He has held a number of engineering, planning, and management positions throughout his 27-year career with the group.
The energy sector will need to continue to develop and adapt over the next 25 years to meet society’s dual challenge: supplying the energy required for economic growth and rising living standards while also mitigating the risks raised by climate change. To address this challenge, we’ll need new innovations, ranging from product enhancements that improve energy efficiency to breakthroughs in fields like advanced biofuels and carbon capture. Much of this will have to be achieved at a large scale and deployed internationally.
The fundamental concepts of chemistry and chemical engineering will remain constant, but the methods will change. In the energy sector, improved computing capacities, as well as sensors and other analytical instruments, will continue to underpin technological advances.
Utes – digitization: revolutionize equipment fleet
Darrin Talley is the President of ExxonMobil Research and Engineering Company (EMRE), where he is in charge of over 2000 engineers and scientists. Long-term, strategic discovery research, distribution of advantaged technologies to ExxonMobil’s Downstream and Chemical businesses, and engineering programs to continually enhance the efficiency of ExxonMobil’s manufacturing operations are all active activities at EMRE’s research and engineering centers in North America, Europe, and Asia. He lives in the town of Spring, Texas.
Darrin is a native of Paris, Missouri, who graduated from Missouri University of Science and Technology with a B.S. in mechanical engineering and an MBA from the University of Pittsburgh. In 1988, he entered ExxonMobil as a Field Engineer with the Mobil Corporation in Detroit, Michigan, after graduating. He has considerable experience in refining and chemical operations and plant management, as well as marketing and strategic planning for fuels and lubricants. Darrin became Vice President of Global Real Estate and Facilities, Global Services Group, in Spring, Texas, in 2015. He was named Vice President of Marketing for ExxonMobil’s Fuels and Lubricants business in 2011.
Ten years hence lecture: robert schleckser
Natural gas is a flexible fuel that can be used to power infrastructure, houses, and cars. It also releases far less toxins, such as NOx, SOx, particulates, and mercury, as well as up to 60% less greenhouse gas emissions than coal power generation (GHGs). Natural gas, as noted by the International Energy Agency and others, offers significant air emission and GHG advantages as compared to coal, and can play an important role in a renewable energy mix. According to the IEA, resolving methane emissions across the supply chain will help to boost this optimistic environmental and sustainability profile even further.