International Journal of Mathematical, Engineering and Management Sciences | |
Optimal Sizing and Control of Solar PV-PEMFC Hybrid Power Systems | |
Padmanabh Thakur1  Asheesh Kumar Singh2  Pitchai Karuppanan3  Vipin Das3  | |
[1] Electrical Engineering Department, Graphic Era (Deemed to be University), Dehradun, India.;Electrical Engineering Department, M. N. National Institute of Technology Allahabad, Prayagraj, India.;Electronics and Communication Engineering Department, M. N. National Institute of Technology Allahabad, Prayagraj, India.; | |
关键词: homer pro; levelized cost of energy; net present cost; solar pv; pemfc; | |
DOI : 10.33889/IJMEMS.2021.6.4.068 | |
来源: DOAJ |
【 摘 要 】
This paper explores several possible hybridized techniques to supply electrical energy at remote locations where the utility grid extension is found uneconomical. In this work, diesel-generator (DG) is combined with the various renewable energy resources (RES) and multiple storage facilities, such as (i) proton exchange membrane fuel cell (PEMFC) and hydrogen energy storage (HES), (ii) PEMFC, HES, and Solar PV, and (iii) HES, Solar PV, PEMFC, HES, and battery storage system (BSS), respectively, to achieve the best hybrid solution to supply electrical power in remotely located area efficiently. The Homer Pro software developed by the national renewable energy laboratory is used in this paper for conducting the proposed analysis. The problem is formulated as a multi-objective optimization problem to minimize the cost and greenhouse gas emissions. Three performance indices or objective functions, namely net present cost (NPC), levelized cost of energy (LCOE) and unmet load, have been evaluated for these three hybridizations to determine the best alternative to overcome the energy crunch, which is existing especially in remotely located area. The comparative analysis of the estimated performance parameters has revealed that the hybridization of DG with Solar PV, PEMFC, HES, & BSS provides smaller values of NPC (in US $), LCOE (in US $/kWh), and unmet load. Furthermore, hybridization of DG with Solar PV, PEMFC, HES, & BSS results in the lowest pollutant emission with zero unmet loads and energy wastage. Therefore, in this study, hybridization of DG, Solar PV, PEMFC, HES, & BSS is recommended as the best alternative to supply electrical power efficiently and economically to remote areas. In this stand-alone work mode of operation of DG is considered as a reference system and named ‘Combination 1’. The LCOE and NPC of the best suitable HPS are obtained as 0.50193 US $/kWh and 35200000 US $, respectively. As a result, the system's emission is reduced by 94% compared with the base case (combination 1).
【 授权许可】
Unknown