Effects of fuel processing methods on industrial scale biogas-fuelled solid oxide fuel cell system for operating in wastewater treatment plants

Farhad, Siamak; Yoo, Yeong; Hamdullahpur, Feridun

doi:10.1016/j.jpowsour.2009.09.032

Cited by 48 publications

(29 citation statements)

References 42 publications

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“…In other publications on biogas-fueled SOFC systems the compositions were in most cases in the region of x CH 4 = 0.65 and x CO 2 = 0.35. [19,27,30,46] As Figure 5 shows, for this composition not only c is lower but also q. This means that the reformer needs less heat for isothermal operation.…”

Section: Energy Balancementioning

confidence: 84%

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Oxidative Dry‐Reforming of Biogas: Reactor Design and SOFC System Integration

et al. 2013

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Biogas is an attractive fuel for solid oxide fuel cell applications because of the high CO2 content. Its composition allows a high electrical efficiency without adding external water to the system. Because of the CO2 reforming reaction only a very small amount of air is needed for partial oxidation, which is why the process could be called oxidative dry‐reforming. Herein, this concept is demonstrated by a thermodynamic analysis of the process and experimental system and component results. In order to realize a high yield of electrical power from the SOFC stack, a large flow of chemical energy into the stack is needed. To achieve this goal the efficiency of the reforming process is essential. With optimized reforming conditions it is possible to increase the chemical energy content of the fuel by adding an ample amount of heat to the reforming step. To achieve this in practice, the necessary heat flow to the reformer has to be calculated for a given operating temperature. Based on these thermodynamic calculations a reactor was built and tested. After successful laboratory tests the reactor was integrated into an SOFC system, where the necessary heat for the reforming step was supplied by the afterburner. The results of the component tests were verified under system conditions. Based on this system concept a high value for the electrical efficiency (ηel>0.5) of the system was achieved.

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Section: Energy Balancementioning

confidence: 84%

“…[18] The use of synthetic or real biogas in SOFCs has not only been modeled in numerous publications, [19][20][21][22][23][24][25] but has also been investigated in experimental studies. [26][27][28][29][30][31][32][33][34][35][36][37] Most research work has been done with internal reforming systems.…”

Section: Introductionmentioning

confidence: 99%

Oxidative Dry‐Reforming of Biogas: Reactor Design and SOFC System Integration

et al. 2013

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“…Another study using actual biogas gives ranges of 58e70% for methane, 30e43% for carbon dioxide, and 1.2e7.1% nitrogen [13]. Given the large variability in actual biogas as well as the surrogates used to investigate biogas, the concentrations used herein should accurately measure the effect of dilution taking both carbon dioxide and nitrogen into consideration.…”

Section: Surrogate Biogasmentioning

confidence: 99%

Short contact time catalytic partial oxidation of biogas – A comprehensive study on CO2 and N2 dilution

Leclerc

2014

Biomass and Bioenergy

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“…Esse processo proporciona o aproveitamento da biomassa para geração de energia (DINUCCIO et al, 2010), além de constituir-se em uma alternativa para o tratamento de resíduos, pois além de reduzir o potencial poluidor e os riscos sanitários dos dejetos ao mínimo, promove a geração de biogás (DONG et al, 2010;TEGHAMMAR et al, 2010), o qual pode ser utilizado como fonte de energia alternativa (FARHAD et al, 2010) e permite a reciclagem do efluente, podendo este ser usado como biofertilizante (ESPERANCINI et al, 2007).…”

Section: Introductionunclassified