Title	::	Modeling and Simulation of Grid Connected PV/WT Energy System Using Super-Capacitor
Country	::	India
Authors	::	V.Alexpandian || S.Shahid || S.Revantha Krishnaa || A.Arun Kumar || D.Karthikeyan
Page	::	01-07

The development of solar photovoltaic and wind energy system for producing electricity is most needed facility for the human being. Basically this system has to integrate the two energy systems that will give every time continuous power.This model consists for annexations of induction generator, controller, converters. The efficiency of electricity output is improves the reliability and integration of renewable power into the grid. The model is implemented using Matlab Simulink software package.This paper deals with grid connected energy system have using of super-capacitor and the Dcsupplycan be stored in the dc battery as well as the Ac source is connected to the grid. The MPPT and hysteresiscontrollers get the controlled supply.

 

Keywords: -Dc to Dc power conversion, Hybrid power systems, Modeling, Photovoltaic systems, Super capacitor, Grid, Wind power generation.

[1] Amine Lahyani, Pascal Venet, Abdessattar Guermazi, and Alaeddine Troudi"Battery/Super-capacitors Combination in
Uninterruptible Power Supply (UPS)", IEEE Transactions on Power Electronics, vol. 28, no. 4, April 2013.
[2] Cristian, Carlos Ocampo-Martinez&María Inés Valla "Modeling, Diagnosis, and Control of Fuel-Cell-Based Technologies and Their Integration in Smart Grids and Automotive Systems", IEEE Transactions On Industrial Electronics, VOL. 62, NO. 8,
AUGUST 2015.
[3] Hania EI-Kanj Baitie and Tarek Selmi "Review of Smart Grid Systems' Requirements", 2015 Tenth International Conference on Ecological Vehicles and Renewable Energies (EVER)
[4] H.L Tsai, "Insolation-oriented model of photovoltaic module using Matlab/Simulink," Solar Energy, vol. 84, pp. 1318-1326,
July 2010.
[5] J.P. Reichling, and F.A. Kulacki, "Utility scale hybrid wind-solar thermal electrical generation a case study for Minnesota",
Energy, vol. 33, pp.626-638, April 2008

Title	::	Modeling Of Permanent Magnet Machine Using Ceiling Fan System
Country	::	india
Authors	::	Mohanraj.S || Uthrapathy.V || Mr. Balaji.G || Mohamed Zerbas Ali || Krishna.N
Page	::	08-13

Induction motors are widely used in several household applications and some government agencies that introduced regulations forced in reduction of energy consumption. We designed of electrical machine using ceiling fan system to generate electrical power. The wasted kinetic energy of ceiling fan is converted into electrical energy by dc generator. Existing workofceiling fan technologies, previous researches on ceiling fan, type of flux and air gap configurations was systematically analyse in order to obtain the optimum proposed designs configuration. The permanent magnet machine configuration and axial flux configuration was selected to propose the design of an electrical machine. We have introduced the new concept of single rotor double stator that combining the motor and generator in one system. In our system, permanent magnet is rotor and the armature coil is stator.

Keywords: - Permanent Magnet Synchronous Generator (PMSG), Permanent magnets, Axial Flux.

[1] N. F. Zulkarnain, T. Ibrahim And H. Z. Hashim "Design And Modelling Of Electricalmachine For Ceiling Fan System" Department Of Electrical And Electronic Engineering, Universititeknologipetronas, Perak, Malaysia, 2015.
[2] N. F. Zulkarnain,T. Ibrahim, M. F. Romlie "Design &Optimization Of Permanent Magnet Machine ForCeilingFan" Department
Of Electrical And Electronic, Universititeknologi Petronas 31750, Seri Iskandar, Perak Malaysia, 2016.
[3] Claudiu Brad, Ioan Vadan Dept. Of Electrical Engineering Technical University Of Cluj-Napoca Tucn Cluj-Napoca, Romania." Design And Analysis Of An Axial Magnetic Flux Wind Generator"
[4] Askoparviainen, "Design Of Axial-Flux Permanent-Magnet Low-Speed Machines And Performance Comparison Between Radial- Flux And Axial-Flux Machines".
[5] Shaopeng Wu, Member, Ieee, Weiduo Zhao, Songlin Wu, And Shumei Cui, "Design And Analysis Of Counter-Rotating Dual
Rotors Permanent Magnet Compensated Pulsed Alternator", 2017.

Title	::	Switched Coupled Quasi Z Source Inverter for Photovoltaic Power Generation System
Country	::	India
Authors	::	D.Priyanka || A.Margret || A.Janagiraman || V.Anandakumar
Page	::	14-19

This paper presents new topology of quasi z source inverter which inherits from z source inverter. By using quasi z source network inverter draws constant current from solar panel and makes it suitable for photovoltaic (PV) application system as output from PV array varies. It also features low component rating and constant DC current from source. The Proposed quasi Z Source Inverter (qZSI) does voltage boost or buck and single stage of inversion with high efficiency and reliability. In order to verify these, theoretical analysis and simulation are performed. The MATLAB/Simulink based simulations demonstrate the betterment of the proposed scheme.

 

Keywords: - Pv, Matlab, Qzsi, Zsi

[1] Pravin P.Kalubarme,"Quasi -Z-source inverter for photovoltaic power generation systems",India International Journal Of
Innovation In Engineering Research And Technology [IJIERT] Issn:2394-3696 Volume1, Issue Dec -2014.
[2] R. Vidhya , R. Aarthi , M. ArunKarthick, B. Aswanth Karthik,P.Hariprakash," Design and implementation of Quasi -Z-Source
inverter for off grid photovoltaic Systems", International Journal of computer Science and Mobile Computing ISSN 2320-088X
IJCSMC,Vol.4, Issue.3,March,2015,pg.626-633.
[3] Yuan Li, Joel Anderson,Fang Z .peng, and Dichen Liu, "quasi -Z- Source Inverter for Photovoltaic Power Generation Systems", IEEE Transaction on Industry Applications, Vol.19,pp.918-924,2009.
[4] P. C. Loh, D. M. Vilathgamuwa, Y. S. Lai, G. T. Chua, and Y. Li, "Pulse width modulation of Z-source inverters," in Conf. Rec.
IEEE-IAS Annu. Meeting, Seattle, WA, 2004, pp. 148–155.
[5] S. Rajakaruna and Y. R. L. Jayawickrama, "Designing Impedance Network of Z-Source Inverters", IEEE Transactions on Industry Applications, vol.42,no.3,pp.1-6,May/June2006.

Title	::	Implementation of Single Phase PV Based Three Switch Three Port Fly back Inverter with Series Decoupling Circuit for Grid Application
Country	::	India
Authors	::	V.Anandakumar || R.Vinoth || G.Nesamani || A.Anandaraj || N.Vimalraj
Page	::	20-26

The Grid-Connected Photovoltaic (Pv) Generator Has Nowadays Become More Popular Because Of Its Reliable Performance And Also Its Ability To Generate Power From Clean Energy And Renewable Energy Source Based Distributed Generation (Dg)System Are Normally Interfaced To The Grid Through Power Electronics Converter Or Inverters. The Pv Based Standalone Systems Are Evolved As An Attractive Solution Forthe Issue Of Electrification In Where The Grid System Is Not Available. In Single-Phase Grid Connected Pv System, The Input Power Is Constant During The Line–Frequency Period, While The Output Power Oscillates At Double-Line Frequency..............

 

Keywords - Pv, Dg, Matlab, Pdc

[1] V. Anandakumar, A.Ramesh and Dr.E.Mariappane(Feb-2014) "Implementation of new control technique for interleaved flyback inverter based PV system" in International Journal of Engineering Research & Technology.,vol.3.,issue.2.
[2] Mohammad HadiZare and Reza Beiranv(2016)"A Single-Phase Grid-Connected Photovoltaic Inverter Based on a Three-Switch Three-Port Flyback with Series Power Decoupling Circuit" in IEEE Transactions On Industrial Electronics.,2016
[3] Haibing Hu, SouhibHarb and IssaBatarseh (Sep-2012) "A Three-port Flyback for PV Microinverter Applications With Power
Pulsation Decoupling Capability" in IEEE Transactions On Power Electronics, Vol. 27
[4] C.Kyritsis, N. P. Papanicolaou, and E. C. Tatakis, (Sep-2007) "A novel parallel active filter for current pulsation smoothing on
single stage grid connected AC-PV modules," in Proc. Eur. Conf. Power Electron., pp. 1–10.
[5] G. Moschopoulos and P. K. Jain, (Jun-2004) "A novel single-phase soft-switched rectifier with unity power factor and minimal component count", IEEE Trans. Ind. Electron., vol. 51, no. 3, pp. 566-576.

Title	::	Monitoring and Control of Three Phase Induction Motor Using Iota Based Concept
Country	::	India
Authors	::	M. Ananda Velan || M. Aravind Raj || K. Kannadasan || D.Kirubakaran
Page	::	27-31

The three phase squirrel cage induction motors are widely used motor in industry because of its simple maintenance. The Variable Frequency Drive controls the speed of the machine to maintain its constant speed characteristics. To have reliable operation its performance must be monitored continuously.This monitoring of induction motor can also be monitored and control using mobile communication with IoT concept.This operation is monitored and controlled by the Programmable Logic Controller (PLC) and Supervisory Control and Data Acquisition (SCADA) are two new approaches to control a Variable Frequency Drive (VFD) whose output is fed to an induction motor and driving a conveyor belt..............

 

Keywords -Programmable Logic Controller (PLC), Supervisory Control and Data Acquisition (SCADA), Variable Frequency Drive (VFD), Internet of things(IoT), and Personal computer(PC).

[1] N. Sadeesh , P. Hema , E. Prasannakumar , S. Leelakrishnan,"Automation of VFD Based Sugarcane Crusher with PLC and
SCADA Control" IJRASET,Volume 4 Issue V, May 2016 IC Value: 13.98 ISSN: 2321-9653
[2] RinchenGeongmitDorjee, "Monitoring and Control of a Variable Frequency Drive Using PLC and SCADA "IJRITCC, Volume: 2 Issue: 10, October 2014.
[3] JigneshaAhir, "Design and Development of PLC and SCADA Based ControlPanel for Continuous Monitoring of 3-Phase Induction Motor" National Conference on Recent Trends in Engineering & Technology, 13-14 May 2011.
[4] Maria G. Ioannides, "Design and implementation of PLC based monitoring control system for induction motor" IEEE Transactions on EnergyConversion, Vol. 19, No.3, pages 469-476,September 2004.
[5] K Gowri Shankar, "Control of boiler operation using PLC-SCADA" International MultiConference of Engineers and Computer
Scientists, Vol. 2, ISBN: 978- 988-17012-1-3, 19-21 March 2008

Title	::	Monitoring and Controlling Of Power Transmission by PLC and Scads
Country	::	India
Authors	::	A.Sheikibrahim || S.Mohammadsabeer || K.Kavinelavu || M. Prasanna Balaji || D. Vengatesh
Page	::	32-36

In recent yearsmuch attention has been given to the use of PLCs (Programmable Logic Controllers) in substation and distribution automation application. The manufacturers of PLCs have responded by developing new products that meet the unique requirements of substation automation and SCADA applications. PLCs are very cost competitive with traditional RTUs and have many benefits in substation automation applications. This paper deals with PLC and SCADA system by using WPL software. The fault in substation can be diagonized and monitored easily. PLC is used to control the whole process in substations, fault can be monitored and diagonized by bypass circuit using SCADA.

 

Key words: - PLC, SCADA, RTU

[1] International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering"Working Phases of SCADA System for Power Distribution Networks".Shalini1 Sunil Kumar J2 Birtukan Teshome3 SamrawitBitewlgn Muluneh4
BitseatTadesse Aragaw5
[2] International Journal of Electronics and Computer Science Engineering 254 "Design And Implementation Of SCADA System
Based Power Distribution For Primary Substation".Khin Thu Zar Win 1, Hla Myo Tun 2.
[3] Multidisciplinary Journal of research in Engineering and Technology "PLC SCADA based distribution monitoring and
control".Santhosh B.Belekar.
[4] Automated Fault Isolation System on Low Voltage Distribution Automation System" M. M. Ahmed

Title	::	Closed Loop Sic-Based Z-Source Resonant Converter Using Phase Shift Control for EV Wireless Charger
Country	::	India
Authors	::	K.Hariprakash || P.Mohanbabu || S.Subash || A.Mohamed Ibrahim
Page	::	37-47

Traditional load regulation methods for a resonant converter mainly rely on frequency modulation. It is always a tradeoff between the design of the resonant network and the range of load. Especially for wireless power transfer (WPT) systems, the resonant network usually has a high quality factor. Small variation on frequency leads to huge drop in gain and efficiency. Due to this problem, many WPT systems are unregulated and they need one or two more front-end stages to regulate the dc bus voltage and perform power factor correction (PFC). In order to lower the cost and complexity of two- or three-stages structure, a single-stage solution with a silicon carbide (SiC) based Z-source resonant converter (ZSRC) was recently proposed. The Zsource network provides high reliability as being immune to shoot-through problems...............

 

Keywords -Electric vehicles (EVs), load regulation, resonant converter, silicon carbide (SiC), wireless power transfer (WPT), Z-source

[1]. M. Yilmaz and P. T. Krein, ―Review of battery charger topologies, charging power levels, and infrastructure for plug-in electric and hybrid vehicles,‖ IEEE Trans. Power Electron., vol. 28, no. 5, pp. 2151–2169, May 2013.
[2]. Musavi, M. Edington, and W. Eberle, ―Wireless power transfer: A survey of EV battery charging technologies,‖ in Proc. 2012 IEEE Energy Convers. Congr. Expo., Sep. 15–20, 2012, pp. 1804–1810.
[3]. J. Deng, F. Lu, L. Siqi, T.-D. Nguyen, and C. Mi, ―Development of a high efficiency primary side controlled 7 kW wireless power charger,‖ in Proc. 2014 IEEE Int. Elect. Veh. Conf., Dec. 17–19, 2014, pp. 1–6.
[4]. Y. Chen and Y. S. Lai, ―New digital-controlled technique for bat-tery charger with constant current and voltage control without current feedback,‖ IEEE Trans. Ind. Electron., vol. 59, no. 3, pp. 1545–1553, Mar. 2012.
[5]. S. Y. Choi, B. W. Gu, S. Y. Jeong, and C. T. Rim, ―Advances in wireless power transfer systems for roadway-powered electric vehicles,‖ IEEE J. Emerg. Sel. Topics Power Electron., vol. 3, no. 1, pp. 18–36, Mar. 2015