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- A new approach could fractionate crude oil using . . . - MIT News
MIT researchers have developed a new membrane that can separate different kinds of fuel by molecular size, which could replace the current energy-intensive crude oil distillation process
- MIT chemical engineers make potentially game-changing . . . - Yahoo
A team of chemical engineers at the Massachusetts Institute of Technology has invented a new process to separate crude oil components, potentially bringing forward a replacement that can cut its
- New MIT Tech Could Cut Oil Refining Energy by 90% - SciTechDaily
A new MIT-developed membrane separates crude oil components by size, not heat, offering a potential 90% energy savings and a significant reduction in CO₂ emissions MIT researchers have developed a new membrane that separates various types of fuel by molecular size, potentially eliminating the need for the energy-intensive process of crude
- MIT Chemical Engineers Develop New Way To Separate Crude Oil
Longtime Slashdot reader fahrbot-bot shares a report from the Cool Down: A team of chemical engineers at the Massachusetts Institute of Technology has invented a new process to separate crude oil components, potentially bringing forward a replacement that can cut its harmful carbon pollution by 90% The original technique, which uses heat to
- A new approach could fractionate crude oil using much less . . .
The key innovation is that the filters we developed can separate very small molecules at an atomistic length scale," says Zachary P Smith, an associate professor of chemical engineering at MIT
- MIT Engineers Develop Breakthrough Membrane to Revolutionize . . .
The new membrane offers an alternative by filtering molecules according to size and shape, eliminating the need for boiling According to Zachary P Smith, associate professor of chemical engineering at MIT and senior author of the study, the new method represents a transformative approach to separation technology
- Crude oil climate toll slashed by 90% in US engineering . . .
“This is a whole new way of envisioning a separation process,” said Zachary P Smith, associate professor of chemical engineering at MIT and senior author of the study
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