This paper presents the results of a study for a 100 kW net electrical power PEM fuel cell system. The major system components are an autothermal reformer, high and low temperature shift reactors, a preferential oxidation reactor, a PEM fuel cell, a combustor and an expander. Intensive heat integration within the PEM fuel cell system has been necessary to achieve acceptable net electrical efficiency levels. The calculations comprise the auxiliary equipment such as pumps, compressors, heaters, coolers, heat exchangers and pipes. The process simulation package 'ASPEN-HYSYS 3.1' has been used along with conventional calculations. The operation conditions of the autothermal reformer have been studied in detail to determine the values, which lea...
Three different reforming methods for the conversion of natural gas to hydrogen are studied and comp...
Fuel cells, which have seen remarkable progress in the last decade, are being developed for transpor...
Models for auxiliary power units (APU) based on-board hydrocarbon fuel processors (FP) for hydrogen ...
This simulative work analyzes the impact of fuel type on the energy efficiency of systems composed by...
This work presents a simulative energy efficiency analysis performed on fuel processor – PEMFC syste...
In this work we present a simulative energy efficiency analysis on innovative fuel processor - PEM f...
In this paper, we discuss the results of a preliminary systematic simulation study: the effect of op...
High temperature polymer electrolyte membrane fuel cells (HT-PEMFC) can be operated with reformate c...
The autothermal reforming system developed in this study was proved to be feasible for hydrogen gene...
This paper evaluates the performance of a fuel cell/battery vehicle with an on-board autothermal ref...
A system-level simulation tool was developed to understand the challenging trade-offs in integrating...
Abstract: The integrated power system under consideration, consists of the fuel processor (reformer ...
In this work we report a simulative energy efficiency analysis performed on innovative fuel process...
This work presents a simulative energy efficiency analysis performed on fuel processor – PEM fuel ce...
This paper illustrates an innovative concept of hydrogen production, applied to microcogeneration sy...
Three different reforming methods for the conversion of natural gas to hydrogen are studied and comp...
Fuel cells, which have seen remarkable progress in the last decade, are being developed for transpor...
Models for auxiliary power units (APU) based on-board hydrocarbon fuel processors (FP) for hydrogen ...
This simulative work analyzes the impact of fuel type on the energy efficiency of systems composed by...
This work presents a simulative energy efficiency analysis performed on fuel processor – PEMFC syste...
In this work we present a simulative energy efficiency analysis on innovative fuel processor - PEM f...
In this paper, we discuss the results of a preliminary systematic simulation study: the effect of op...
High temperature polymer electrolyte membrane fuel cells (HT-PEMFC) can be operated with reformate c...
The autothermal reforming system developed in this study was proved to be feasible for hydrogen gene...
This paper evaluates the performance of a fuel cell/battery vehicle with an on-board autothermal ref...
A system-level simulation tool was developed to understand the challenging trade-offs in integrating...
Abstract: The integrated power system under consideration, consists of the fuel processor (reformer ...
In this work we report a simulative energy efficiency analysis performed on innovative fuel process...
This work presents a simulative energy efficiency analysis performed on fuel processor – PEM fuel ce...
This paper illustrates an innovative concept of hydrogen production, applied to microcogeneration sy...
Three different reforming methods for the conversion of natural gas to hydrogen are studied and comp...
Fuel cells, which have seen remarkable progress in the last decade, are being developed for transpor...
Models for auxiliary power units (APU) based on-board hydrocarbon fuel processors (FP) for hydrogen ...