Gas Processing/LNG
Using gas pipeline pressure to liquefy natural gas or generate electricity
This novel approach can save money and improve energy usage efficiency
Optimize energy consumption for LNG vaporization
New methods maximize heat transfer to regasify natural gas with minimum environmental impacts
Improve natural gas liquids recovery
Designing for temperature variations does impact operating costs and unit efficiencies
The design benefit method: Allocate joint costs among shared products
This accounting technique can provide more accurate results than traditional practices
Fine-tune refrigerated LPG loading line operations
Elevation changes affect the pressure profile and phase behavior; such conditions impact product loading
North American LNG terminals: Options?
Several critical factors should be considered when designing receiving facilities
Improved regasification methods reduce emissions
New technologies promote monetization of global LNG
LNG receiving and regasification terminal operations
Understanding and controlling boil-off gas pressure enhances energy efficiency
Improve energy recovery in gas processing plants using an HPT
Utilizing this innovative technology can help realize substantial savings
Consider CFD modeling to improve reactor design for synthesis gas production
Advancements in computational fluid methods simulate dynamics and reactions for autothermal reformers
- ABB enhances AI capabilities of flagship industrial device digital solutions 4/17
- XCF, DevvStream, Southern Energy Renewables partner to bring transferable 45Z clean fuel credits to market 4/17
- HyOrc completes independent process and technology verification for waste-to-methanol platform 4/17
- Bottled lightning makes a cleaner fuel: Research shows how bursts of plasma convert methane into methanol without high heat and pressures 4/17
- Evonik launches high performance isodewaxing catalysts for fuels and lubricants production 4/16
- BASF to increase its price for neopentylglycol in the U.S. and Canada 4/16
