Litcius/Paper detail

A novel hybrid liquefied natural gas process with absorption refrigeration integrated with molten carbonate fuel cell

Mehdi Mehrpooya, Parimah Bahramian, Fathollah Pourfayaz, Hadi Katooli, Mostafa Delpisheh

2021International Journal of Low-Carbon Technologies31 citationsDOIOpen Access PDF

Abstract

Abstract The production of liquefied natural gas (LNG) is a high energy-consuming process. The study of ways to reduce energy consumption and consequently to reduce operational costs is imperative. Toward this purpose, this study proposes a hybrid system adopting a mixed refrigerant for the liquefaction of natural gas that is precooled with an ammonia/water absorption refrigeration (AR) cycle utilizing the exhaust heat of a molten carbonate fuel cell, 700°C and 2.74 bar, coupled with a gas turbine and a bottoming Brayton super-critical carbon dioxide cycle. The inauguration of the ammonia/water AR cycle to the LNG process increases the cooling load of the cycle by 10%, providing a 28.3-MW cooling load duty while having a 0.45 coefficient of performance. Employing the hybrid system reduces energy consumption, attaining 85% overall thermal efficiency, 53% electrical efficiency and 35% fuel cell efficiency. The hybrid system produces 6300 kg.mol.h−1 of LNG and 146.55 MW of electrical power. Thereafter, exergy and sensitivity analyses are implemented and, accordingly, the fuel cell had an 83% share of the exergy destruction and the whole system obtained a 95% exergy efficiency.

Topics & Concepts

Liquefied natural gasExergyExergy efficiencyMolten carbonate fuel cellWaste managementBrayton cycleAbsorption refrigeratorLiquefactionNatural gasEnvironmental scienceRefrigerationProcess engineeringChemistryTurbineEngineeringMechanical engineeringPhysical chemistryElectrodeOrganic chemistryAnodeThermodynamic and Exergetic Analyses of Power and Cooling SystemsAdsorption and Cooling SystemsCarbon Dioxide Capture Technologies