A Novel Fused Converter for Hybrid Power Systems

W. Margaret Amutha; Renugadevi Renugadevi; V. Rajini

doi:10.4028/www.scientific.net/AMR.984-985.744

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 984-985A Novel Fused Converter for Hybrid Power Systems

A Novel Fused Converter for Hybrid Power Systems

Abstract:

—Hybrid power system consists of different sources of electrical energy with different operating times during different seasons. Deployment of a hybrid power system is expected in rural areas. Supplying remote load systems such as rural telephony, hospitals, military etc.., where continuous power supply is required, can be realized with the combination of wind and solar power. The proposed topology is designed for telecom load which uses dual input dc-dc fused converter for combining solar and wind energy sources. For the further research and improvements in the proposed fused converter topology, it is necessary to know in detail the power flow from solar and wind sources to the load or to storage battery depending on different seasons. For various wind speed with constant solar irirradiation and, for various solar irirradiations with constant wind speed, the power flow of the hybrid power system is simulated and presented. The same topology is investigated for different switching frequencies (10 kHz and 20 kHz), using MATLAB/SIMULINK, and the efficiencies are calculated.

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Periodical:

Advanced Materials Research (Volumes 984-985)

Pages:

744-749

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.984-985.744

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Online since:

July 2014

Authors:

W. Margaret Amutha, Renugadevi Renugadevi, V. Rajini

Keywords:

Dual Input DC-DC Fused Converter, Hybrid Power Systems, Telecom Load

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References

[1] B. Mangu, K. Kiran Kumar and B.G. Fernandes, Efficiency improvement of Solar-Wind based Dual input converter for telecom power supply, EEIC, 11th International Conference, pp.914-919, (2012).

DOI: 10.1109/eeeic.2012.6221506

Google Scholar

[2] B. Mangu, K. Kiran Kumar and B.G. Fernandes, A novel grid interactive Hybrid power supply system for telecom application, INDICON, Pg 1-5, Annual IEEE, (2011).

DOI: 10.1109/indcon.2011.6139543

Google Scholar

[3] Shiyas.P. R, kumaravel. S and Dr. Ashok. S , Fuzzy controlled Dual input DC/DC Converter for Solar-PV / Wind based Hybrid energy system, SCEECS IEEE Students Conference, pp.1-5, (2012).

DOI: 10.1109/sceecs.2012.6184775

Google Scholar

[4] Marian Vilsan. Irina Nita, A Hybrid Wind-PV power supply for a Telecommunication system, INTELEC 97, 19th International Conference, pp.589-591, (1991).

Google Scholar

[5] Pagilai. G, Piccola. M, Some consideration about the practical design of the diesel engine generator in a Hybrid system as a power supply in telecom plants, Telecommunication energy conference INTELEC 85, 7th International, pp.577-581, (1985).

Google Scholar

[6] Boban Panajotovic and Borislav Odadzic, Design and Intelligent control of Hybrid power System in telecommunication, MELECON, 15th IEEE Meditenanean Electrochemical conference, pp.1453-1458, (2010).

DOI: 10.1109/melcon.2010.5476226

Google Scholar

[7] Drazkiewicz. J, Zahran. M, Dmowski. A, Kras. B and Biczel. P, "PV battery Wind turbine public grid hybrid power supply for telecom equipment system management and control, IECEC, 35th Intersociety, pp.1252-1260, vol-2, (2000).

DOI: 10.2514/6.2000-3025

Google Scholar

[8] Hegazy. O, Van Mierlo. J and Lataire. P, Analysis, Control and comparison of DC/DC Boost converter topologies for fuel cell hybrid electric vehicle applications, EPE 14th European Conference, pp.1-10, (2011).

DOI: 10.1109/epe.2014.6911033

Google Scholar

[9] E.F.F. Ribeiro, A.J. Marques eardosen and C. Boccaletti, Uninterruptible energy production in standalone power systems for telecommunications, ICREPQ 09, April (2009).

DOI: 10.24084/repqj07.350

Google Scholar

[10] O.C. Onar, O.H. A Shirazi and A. Khaligh, Grid interaction of a telecommunications power system with a novel topology for multiple input Buck Boost Converter, IEEE Transaction, Power Del, Vol 25, No4, PP 2633-2645, Oct (2010).

DOI: 10.1109/tpwrd.2009.2031490

Google Scholar

[11] D.C. Riawn and C.V. Nayar, Analysis and design of a solar charge Controller using Cuk Converter, AUPEC 2007, pp.1-6 Dec (2007).

DOI: 10.1109/aupec.2007.4548115

Google Scholar

[12] P. Nema, S. Rangnekar and R.K. Nema , Prefeasibility study of PV-Solar/ Wind Hybrid Energy system for GSM type mobile telephony base station in central india, in proc. 2nd International conference on Computer and automation Energy Vol-5 , pp.152-156, Feb (2010).

DOI: 10.1109/iccae.2010.5451496

Google Scholar