Variations of fuel composition during storage at Liquefied Natural Gas refuelling stations

“…However as the tank of a refueling station is refilled before the tank is completely empty and also due to effects of ageing in the tank, there is a need to use on-site sampler to take samples for determination of the composition and determination of the particles content to verify quality that the fuel complies with the quality requirements and ensure consumer safety (9)(10)(11). In particular, the LNG fuel quality may be compromised by destructive particles for engines which causes premature wear and potentially engine failures (9,12).…”

“…One difficulty to overcome was the risk of pre-evaporation/bubble formation due to ambient heat transfer, which would fractionate the sample and change the composition (methane and nitrogen are enriched in gas bubbles compared to the liquid phase, relative to ethane, propane, butane etc.). By thorough insulation of the "cold side" of the vaporizer and optimization of flows, repeatability was achieved and less than 5% relative standard deviation observed for methane, ethane and propane concentration (10), which would also indicate a fit for purpose measurement uncertainty (trueness could not be tested as LNG standards were unavailable). However, it took a long time (>2h)…”

Utilization of a Portable Sampler for Liquefied Natural Gas Composition and Particles at Refueling Stations

“…However as the tank of a refueling station is refilled before the tank is completely empty and also due to effects of ageing in the tank, there is a need to use on-site sampler to take samples for determination of the composition and determination of the particles content to verify quality that the fuel complies with the quality requirements and ensure consumer safety (9)(10)(11). In particular, the LNG fuel quality may be compromised by destructive particles for engines which causes premature wear and potentially engine failures (9,12).…”

“…One difficulty to overcome was the risk of pre-evaporation/bubble formation due to ambient heat transfer, which would fractionate the sample and change the composition (methane and nitrogen are enriched in gas bubbles compared to the liquid phase, relative to ethane, propane, butane etc.). By thorough insulation of the "cold side" of the vaporizer and optimization of flows, repeatability was achieved and less than 5% relative standard deviation observed for methane, ethane and propane concentration (10), which would also indicate a fit for purpose measurement uncertainty (trueness could not be tested as LNG standards were unavailable). However, it took a long time (>2h)…”

Utilization of a Portable Sampler for Liquefied Natural Gas Composition and Particles at Refueling Stations

Rollover Phenomenon in Liquefied Natural Gas Storage Tank

Rigorous simulation, energy and environmental analysis of an actual baseload LNG supply chain