Litcius/Paper detail

Comparative Analysis of On-Board Methane and Methanol Reforming Systems Combined with HT-PEM Fuel Cell and CO2 Capture/Liquefaction System for Hydrogen Fueled Ship Application

Hyunyong Lee, In-Chul Jung, Gilltae Roh, Youngseung Na, Hokeun Kang

2020Energies40 citationsDOIOpen Access PDF

Abstract

This study performs energetic and exergetic comparisons between the steam methane reforming and steam methanol reforming technologies combined with HT-PEMFC and a carbon capture/liquefaction system for use in hydrogen-fueled ships. The required space for the primary fuel and captured/liquefied CO2 and the fuel cost have also been investigated to find the more advantageous system for ship application. For the comparison, the steam methane reforming-based system fed by LNG and the steam methanol reforming-based system fed by methanol have been modeled in an Aspen HYSYS environment. All the simulations have been conducted at a fixed Wnet, electrical (475 kW) to meet the average shaft power of the reference ship. Results show that at the base condition, the energy and exergy efficiencies of the methanol-based system are 7.99% and 1.89% higher than those of the methane-based system, respectively. The cogeneration efficiency of the methane-based system is 7.13% higher than that of the methanol-based system. The comparison of space for fuel and CO2 storage reveals that the methanol-based system requires a space 1.1 times larger than that of the methane-based system for the total voyage time, although the methanol-based system has higher electrical efficiency. In addition, the methanol-based system has a fuel cost 2.2 times higher than that of the methane-based system to generate 475 kW net of electricity for the total voyage time.

Topics & Concepts

MethaneSteam reformingLiquefactionMethanolMethanol reformerWaste managementMethane reformerNatural gasExergyEnvironmental scienceProcess engineeringElectric power systemHydrogenEngineeringChemistryHydrogen productionPower (physics)ThermodynamicsOrganic chemistryPhysicsMaritime Transport Emissions and EfficiencyHybrid Renewable Energy SystemsSpacecraft and Cryogenic Technologies