The design of natural gas liquefaction process operated at offshore regards space as a design variable and requests an integrated and compact process due to space limitation. This study proposes an integrated process for natural gas liquefaction and NGLs recovery based on single mixed refrigerant (SMR) cycle. The considered SMR refrigeration cycle functions as dual mixed refrigerant (DMR) to provide two separate refrigeration levels for natural gas precooling and subcooling. NGLs recovery section includes a conventional column and a heat integrated distillation column in indirect sequence to produce lean gas, ethane liquid, LPG and gasoline. Liquefaction operating parameters were optimized using genetic algorithm in search of optimal values...
The manufacturing process for liquefied natural gas (LNG) is a highly capital-intensive and energy-i...
The primary energy mix forecasted for the future shows that growth rates will be the highest for ren...
The paper reviews the state of art in the design of liquefaction processes for the production of liq...
In this study, a novel mixed refrigerant cycle (MRC) integrated with NGL recovery process for small-...
A natural gas liquefaction and liquid recovery sequence is proposed for top-side offshore floating l...
AbstractFLNG are the floating NG processing plant deployed in the remote marine environment. Their d...
The presence of propane inventory in offshore liquefaction processes increases the concerns for plat...
Small-scale natural gas liquefaction processes have several clear advantages, particularly in the ex...
Natural gas plays a growing role in the energy mix by displacing coal due to its relative economic a...
A new optimization framework for the design of natural gas liquid (NGL) recovery processes was devel...
Dual-mixed refrigerant (DMR) process is a promising candidate for liquefying the natural gas (LNG) a...
Natural gas is the fastest-growing fossil fuel and LNG is playing a growing role in the world’s gas ...
The optimal design of single mixed refrigerant (SMR) natural gas liquefaction process is decisive fo...
© 2014 Elsevier B.V.A novel configuration of natural gas liquid (NGL) recovery process is proposed f...
The increase of the global energy demand, a scenario in which natural gas plays a key-role, together...
The manufacturing process for liquefied natural gas (LNG) is a highly capital-intensive and energy-i...
The primary energy mix forecasted for the future shows that growth rates will be the highest for ren...
The paper reviews the state of art in the design of liquefaction processes for the production of liq...
In this study, a novel mixed refrigerant cycle (MRC) integrated with NGL recovery process for small-...
A natural gas liquefaction and liquid recovery sequence is proposed for top-side offshore floating l...
AbstractFLNG are the floating NG processing plant deployed in the remote marine environment. Their d...
The presence of propane inventory in offshore liquefaction processes increases the concerns for plat...
Small-scale natural gas liquefaction processes have several clear advantages, particularly in the ex...
Natural gas plays a growing role in the energy mix by displacing coal due to its relative economic a...
A new optimization framework for the design of natural gas liquid (NGL) recovery processes was devel...
Dual-mixed refrigerant (DMR) process is a promising candidate for liquefying the natural gas (LNG) a...
Natural gas is the fastest-growing fossil fuel and LNG is playing a growing role in the world’s gas ...
The optimal design of single mixed refrigerant (SMR) natural gas liquefaction process is decisive fo...
© 2014 Elsevier B.V.A novel configuration of natural gas liquid (NGL) recovery process is proposed f...
The increase of the global energy demand, a scenario in which natural gas plays a key-role, together...
The manufacturing process for liquefied natural gas (LNG) is a highly capital-intensive and energy-i...
The primary energy mix forecasted for the future shows that growth rates will be the highest for ren...
The paper reviews the state of art in the design of liquefaction processes for the production of liq...