International Journal of Renewable Energy Research-IJRER

The photovoltaic (PV) technology potential for Yemen is relatively high, based on this fact, there are many isolated and remote locations are located far away from the electrical national grid and cannot be linked in the near future. Hence, the electrification of these rural areas using PV system is very suitable solution to solve the problem of lighting and access to the development of these villages. This paper presents a study on the design and cost estimation of stand-alone photovoltaic PV system (SAPS) to supply the required electricity for these villages. The sizing of the suggested SAPS is achieved, such that radiation data, the electrical load for the typical household in the target villages are taken into account during the sizing steps. Furthermore, there are a maximum power point tracking (MPPT), an inverter, charge controller and lead acid battery which used as an energy storage system were designed. The MATLAB/Simulink used to simulate the PV array sizing and its characteristics depending on incremental conductance MPPT technique to enhance the efficiency of the modules and get maximum available power. The simulation result have been matched the sizing calculation result. Finally, the life cycle cost (LCC) analysis used to evaluate the economic feasibility of the system. The economical results proved that, there is a difference between the conventional energy systems and PV system in that they have a low operating cost and high initial cost. As a result, this study encouraged the using of PV systems to electrify the remote villages in Yemen.

- Rural Electrification (RE), Stand-alone photovoltaic system, Maximum power point tracking, Decentralize PV system, Life cycle cost

S. Kalika, L. Rajaji, and H. Subhash Gupta Gupta, “Intelligent technique based modeling for PVPSâ€., International Journal of Engineering and Innovative Technology (IJEIT), vol. 2, No.6, pp. 211-215, December 2012.

Somin Mukherji, Electrification for Rural Yemen, Rural Energy Access Project (REAP), ADFD/WB, Project Preparation and Appraisal Workshop Abu Dhabi, 2010.

M. A. Al-Ashwal, “All Renewable Energy Applications in Yemen are Best Practiceâ€, ISESCO Science and Technology Vision, vol. 1, No.1, pp. 45-50, May 2005.

T. Latif and S. R. Hussain, “Design of a charge controller based on SEPIC and buck topology using modified Incremental Conductance MPPTâ€, Electrical and Computer Engineering (ICECE), International Conference , Dhaka, Bangladesh, pp. 824-827, 20-22 December 2014.

H. Boumaaraf, A. Talha, and O. Bouhali, “A three-phase NPC grid-connected inverter for photovoltaic applications using neural network MPPTâ€, Renewable and Sustainable Energy Reviews, Elsevier, vol. 49, pp. 1171-1179, Speptember 2015.

P. Sivakumar, A. A. Kader, Y. Kaliavaradhan, and M. Arutchelvi, “ Analysis and enhancement of PV efficiency with incremental conductance MPPT technique under non-linear loading conditionsâ€, Renewable Energy, vol. 81, pp. 543-550.

Department of researches and renewable energy, Solar irradiation for different sites in Yemen for 2012 (draft), Ministry of electricity and energy- Yemen,2012.

T. Khatib, A. Mohamed, and K. Sopian, “On the monthly optimum tilt angle of solar panel for five sites in Malaysiaâ€, IEEE International Power Engineering and Optimization Conference (PEDCO), Melaka, Malaysia, pp. 7-10, 6-7 June 2012.

M. M. Mahmoud and I. H. Ibrik, “Techno-economic feasibility of energy supply of remote villages in Palestine by PV-systems, diesel generators and electric grid†Renewable and Sustainable Energy Reviews, Elsevier, vol. 10, pp. 128-138, 2006.

M. M. Mahmoud, “Solar electric powered reverse osmosis water desalination system for the rural village, Al Maleh: design and simulation†International Journal of Sustainable Energy, vol. 23, pp. 51-62, 2003.

G. S. Aglietti, S. Redi, A. R. Tatnall, and T. Markvart, “Harnessing high-altitude solar power†Energy Conversion, IEEE Transactions on, vol. 24, pp. 442-451, 2009.

Solar Design Tool. (2010, June). Design a PV System with the Suntech STP270-24-Vb-1 (270W). Available: http://www.solardesigntool.com/components/module-panel-solar/Suntech/84/STP270-24-Vb-1/specification-data-sheet.html

Prostar and OEM/ODM. (June,2015). Solar lead-acid battery 12V/1200Ah Prostar type. Available: http://www.alibaba.com/product-detail/12v-1200ah-batterie_1668526403.html?spm=a2700.7724857.35.1.CM7Wzv

P. Birajdar, S. Bammani, A. Shete, R. Bhandari, and S. Metan, “Assessing the Technical and Economic Feasibility of a Stand-Alone PV System for Rural Electrification: A Case Studyâ€, International Journal of Engineering Research and Applications (IJERA), Vol. 3, No. 4, pp.2525-2529, 2013.

S. Kirmani, M. Jamil, C. Kumar, and M. J. Ahmed, “Techno economic feasibility analysis of a stand-alone PV system to electrify a rural area household in Indiaâ€, International Journal of Engineering Science and Technology, vol. 2, pp. 5231-5237, 2010.

T.-C. Yu and Y.-C. Lin, “A Study on Maximum Power Point Tracking Algorithms for Photovoltaic Systemsâ€, Lunghwa Uni-versity of Science and Technology, Dept. of Electrical Engineering.2010.

J. J. Nedumgatt, K. Jayakrishnan, S. Umashankar, D. Vijayakumar, and D. Kothari, “Perturb and observe MPPT algorithm for solar PV systems-modeling and simulationâ€, 2011 Annual IEEE India Conference (INDICON), pp. 1-6, 16-18 December 2011.

D. T. R. Challa and I. Raghavendar, “Implementation of incremental conductance MPPT with direct control method using cuk converterâ€, International Journal of Modern Engineering Research (IJMER), vol. 2, pp. 4491-4496, December 2012.

T. Esram and P. L. Chapman, “Comparison of Photovoltaic Array Maximum Power Point Tracking Techniquesâ€, IEEE transactions on energy conversion, vol. 22, NO.2, pp. 439-449, June 2007.

R. A. Messenger and J. Ventre, Photovoltaic systems engineering , 3rd ed., vol. 2. CRC Press, 2010, pp.331-350.

A. Chel, G. Tiwari, and A. Chandra, “Simplified method of sizing and life cycle cost assessment of building integrated photovoltaic systemâ€, Energy and Buildings, Elsevier, vol. 41, pp. 1172-1180, 2009.

L. Blank, PE & Anthony Tarquin, Engineering Economy, 7th ed., vol. 1. McGraw-Hill press, 1998, 128-171.

B. A. A. Abdel-Ghani, “Techno-Economic Evaluation of Electrification of Small Villages in Palestine by Centralized and Decentralized PV Systemâ€, An-Najah National University, thesis, 2008.

Compound interest tables. Compound Interest Factors 10%. Available: http://www.slideshare.net/Ekapadiyantun/tabel-bunga

M. Albadi, A. Al-Badi, and A. Al-Lawati, “Cost of PV electricity in Omanâ€, 2011 IEEE GCC Conference and Exhibition , Dubai, United Arab Emirates, pp. 373-376, 19-22 February 2011.

E. A. M. I. Yasin. “Optimal Operation Strategy and Economic Analysis of Rural Electrification of Atouf Village by Electric Network, Diesel Generator and Photovoltaic System†Faculty of Graduate Studies, An-Najah National University, thesis, 2008.