6/8 Keep it safe and efficient! Monitoring key performance indicators in Flare and Vent Systems ensures optimal operation, minimizes emissions, and maintains pressure control. #Efficiency βοΈπ
7/8 Managing waste streams and emissions from Flare and Vent Systems is crucial.
Proper treatment, monitoring, and emission control help minimize environmental impact. #WasteManagement β»οΈπ―
8/8 Energy consumption and carbon footprint matter in Flare and Vent Systems. Striving for the right balance in LNG plants leads to a more sustainable future. Stay tuned for more insights into the world of LNG! #CarbonFootprint πππ
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ππ Know Your Key LNG Players: Baker Hughes π
Baker Hughes is a global leader in the LNG industry, providing reliable and efficient gas turbine solutions to power LNG facilities worldwide. π¨π 1/8
Their range of gas turbines includes both aeroderivative and frame turbines, as well as power generation turbine packages. ππ #BakerHughes#LNG#GasTurbines 2/8
In 2017, Baker Hughes acquired GE's turbine business, including both aeroderivative and frame turbines.
This acquisition has enabled Baker Hughes to provide even more comprehensive solutions to their LNG customers. π€π #Acquisition#GE#TurbineBusiness 3/8
1/ πLNG Spotlight: Egyptπ
Egypt has a growing presence in the global #LNG market, with its strategic facilities contributing to the nation's gas exports. Dive into this thread to learn about Egypt's major LNG plants and their capacities! πͺπ¬π
2/ Egyptian LNG (ELNG): Located inΒ Idku, the Egyptian LNG plant is operated by a consortium of international energy companies, including Shell, Petronas, and Engie. ELNG has two LNG trains, with a combined capacity of 7.2 MTPA. πΒ #EgyptianLNGΒ #EgyptLNG
3/ Damietta LNG: Situated in Damietta, this LNG plant is operated by a joint venture comprising Eni, Naturgy, and the Egyptian General Petroleum Corporation. The facility has one LNG train, with a capacity of 5 MTPA. πΒ #DamiettaLNG
π Natural Gas vs. Hydrogen Pipeline Design: Comparing European Design Standards β‘οΈ
π Fueling Tomorrow: Decoding the Pipeline Design Challenge π
π Welcome! 1/14
Europe is rapidly moving towards substituting hydrogen π§ for natural gas π₯ as part of its ambitious clean energy transition π±.
In this thread, we'll explore the differences between:
Natural gas pipeline design using EN 1594 π
Hydrogen pipeline design using EN 16726 πΏ 2/14
As the energy landscape evolves, understanding these distinctions is crucial for engineers, designers, and industry professionals. 3/14
1/ π Prelude FLNG: Challenges & Lessons Learned π
Shell's Prelude FLNG is the world's largest floating LNG facility, but its journey hasn't been without obstacles. Discover the key challenges faced by the project & what the industry can learn from them. π #PreludeFLNG#LNG
2/ π§Technical Complexities: The sheer scale & complexity of Prelude FLNG posed numerous engineering and construction challenges. Managing the integration of various components, such as subsea infrastructure, the floating facility, & offloading systems, was a massive undertaking.
3/ πExtreme Weather Conditions: Operating in the remote Browse Basin off the coast of Australia exposed Prelude FLNG to harsh weather, including cyclones. Ensuring the safety of the facility and its crew required robust design and contingency plans.Β #WeatherChallenges
1/8 "LNG Plant Explained: A Deep Dive into Key Processing Units ππ
Spotlight Power Generation - The powerhouse of LNG plants!"
2/8 β‘π Power Generation Focus: Let's explore Power Generation in LNG plants.
Their goal?
Provide the electricity needed to run various processes and maintain safe, efficient operations. #LNG#PowerGeneration
3/8 Energizing LNG plants! Power Generation Units generate electricity from various sources like gas turbines, steam turbines, or a combination of both.
It's all about providing the juice to keep things running! #Electricity π‘π