Improvement of Regasification Process Efficiency for Floating Storage Regasification Unit

Natural gas plays a vital role in the economically and environmentally sustainable future of energy. Its reliable deliveries are required, especially nowadays, when energy market is so volatile unstable. The conversion natural to its liquefied form (LNG) allows transport greater quantities. Affordability reliability clean key issue even for developed markets. Therefore, usage enables implement green solutions into countries’ economies. However, LNG-production process consumes considerable amount This stored LNG as cold After unloading storage tanks at receiving terminals, it vaporised compressed transmission pipeline system. During regasification process, large part may be recovered used electricity generation, seawater desalination, cryogenic air separation, hydrogen liquefaction, material freezing, carbon dioxide capture, well combined utilization systems. Moreover, increased efficiency terminals attract potential clients. In presented paper, mathematical model performed determine influence composition parameters on quantity released large-scale floating units (FSRU)-type terminal “Independence” (Lithuania). Flow rate regasification, pressure, boil-off recondensation have been considered. Possibilities reduce losses were investigated find ways improve real FSRU. results analysis revealed that FSRU could vary from 20 25 MW. A utilisation industrial urban waste heat sink recommended increase whole process.