Reviews of methods to extract and store energy for solar-powered aircraft

Solar energy is considered to be the most reliable source in the future, and applying solar energy for flight is one of the most promising utilizations of renewables. Since the invention of solar-powered aircraft in 1974, the methods to extract and store energy for it have become the important research points all around the world. Currently, the main methods to do so are photovoltaic cell, rechargeable battery, and component of maximum power point tracking (MPPT). These years, many institutions and scholars have dedicated great efforts to the relative research. Besides, there are also several other methods in consideration, such as to extract energy from wind shear and store energy by gravitational potential. However, it is still not a simple task for the designers of solar-powered aircraft to select a particular technique from a number of existing techniques, since each technique has certain advantages and disadvantages with respect to different performance indices to fulfill the special requirements. Thus, the aim of this paper is to review in detail the working principle of different methods to extract and store energy, and to compare their performances on the basis of desirable features applied on solar-powered aircraft, and to provide some guidance principles for designers to select proper methods.

[1]  Omourtag Velev Regenerative fuel cell system for an unmanned solar powered aircraft , 2000 .

[2]  Jaw-Kuen Shiau,et al.  Design of a Solar Power Management System for an Experimental UAV , 2009, IEEE Transactions on Aerospace and Electronic Systems.

[3]  M. Leipold,et al.  European Sail Tower SPS concept , 2001 .

[4]  Tamás Vicsek,et al.  Thermal soaring flight of birds and unmanned aerial vehicles , 2010, Bioinspiration & biomimetics.

[5]  K. M. Tsang,et al.  Model based rapid maximum power point tracking for photovoltaic systems , 2013 .

[6]  J. L. Leeuwen,et al.  How swifts control their glide performance with morphing wings , 2006, Nature.

[7]  C. Rydh,et al.  Energy analysis of batteries in photovoltaic systems. Part I: Performance and energy requirements , 2005 .

[8]  Paul B. MacCready,et al.  Sun-powered aircraft designs , 1983 .

[9]  P. Lissaman Wind Energy Extraction by Birds and Flight Vehicles , 2005 .

[10]  Anjan Chakrabarty,et al.  Green flight challenge: Aircraft design and flight planning for extreme fuel efficiency , 2013 .

[11]  Zheng Guo,et al.  The equivalence of gravitational potential and rechargeable battery for high-altitude long-endurance solar-powered aircraft on energy storage , 2013 .

[12]  Nicholas R. J. Lawrance,et al.  Autonomous Exploration of a Wind Field with a Gliding Aircraft , 2011 .

[13]  Farivar Fazelpour,et al.  Considerable parameters of using PV cells for solar-powered aircrafts , 2013 .

[14]  J. A. WILSON,et al.  Sweeping flight and soaring by albatrosses , 1975, Nature.

[15]  J. Neidhoefer,et al.  Wind Field Estimation for Small Unmanned Aerial Vehicles , 2010 .

[16]  Giulio Romeo,et al.  HELIPLAT: Design, aerodynamic, structural analysis of long-endurance solar-powered stratospheric platform , 2004 .

[17]  Jou-Hyeon Ahn,et al.  Improvement of cycle property of sulfur electrode for lithium/sulfur battery , 2008 .

[18]  Shengbo Zhang,et al.  A proof-of-concept lithium/sulfur liquid battery with exceptionally high capacity density , 2012 .

[19]  Jin Huang,et al.  Energy management strategy for fuel cell/battery/ultracapacitor hybrid vehicle based on fuzzy logic , 2012 .

[20]  Roland Siegwart,et al.  Flying solo and solar to Mars , 2006, IEEE Robotics & Automation Magazine.

[21]  Fabien Harel,et al.  Fuel cell climatic tests designed for new configured aircraft application , 2010 .

[22]  Zhonghua Gu,et al.  Electrochemical characterization and performance improvement of lithium/sulfur polymer batteries , 2005 .

[23]  Ramesh C. Bansal,et al.  Damping performance analysis of battery energy storage system, ultracapacitor and shunt capacitor with large-scale photovoltaic plants , 2012 .

[24]  R. Courtenay The Soaring of Birds , 1883, Nature.

[25]  Soteris A. Kalogirou,et al.  New MPPT method for stand-alone photovoltaic systems operating under partially shaded conditions , 2013 .

[26]  Zheng Guo,et al.  Energy management strategy for solar-powered high-altitude long-endurance aircraft , 2013 .

[27]  Jie-Ren Shie,et al.  Optimal Sizing and Cruise Speed Determination for a Solar-Powered Airplane , 2010 .

[28]  Pierre T. Kabamba,et al.  Energy-Optimal Path Planning for Solar-Powered Aircraft in Level Flight , 2007 .

[29]  Jeffrey Read,et al.  A new direction for the performance improvement of rechargeable lithium/sulfur batteries , 2012 .

[30]  Pierre T. Kabamba,et al.  Solar-Powered Aircraft: Energy-Optimal Path Planning and Perpetual Endurance , 2009 .

[31]  Christophe Ballif,et al.  Experimental study of flat light-scattering substrates in thin-film silicon solar cells , 2012 .

[32]  Juan Li,et al.  Reviews of power systems and environmental energy conversion for unmanned underwater vehicles , 2012 .

[33]  Philip L. Richardson,et al.  How do albatrosses fly around the world without flapping their wings , 2011 .

[34]  Pradeep R. Nair,et al.  Annealing dependent performance of organic bulk-heterojunction solar cells: A theoretical perspective , 2011 .

[35]  Hao-Chung Kuo,et al.  Enhancement of power conversion efficiency in GaAs solar cells with dual-layer quantum dots using flexible PDMS film , 2012 .

[36]  Abderrezak Guessoum,et al.  A simple behavioural model for solar module electric characteristics based on the first order system step response for MPPT study and comparison , 2012 .

[37]  Shigeru Niki,et al.  Monolithically integrated flexible Cu(In,Ga)Se2 solar cells and submodules using newly developed structure metal foil substrate with a dielectric layer , 2013 .

[38]  Andres Barrado,et al.  Evaluation of a new maximum power point tracker (MPPT) applied to the photovoltaic stand-alone systems , 2005 .

[39]  Henri Weimerskirch,et al.  GPS Tracking of Foraging Albatrosses , 2002, Science.

[40]  James F. Whidborne,et al.  Wind Shear Energy Extraction using Dynamic Soaring Techniques , 2009 .

[41]  Venkatasailanathan Ramadesigan,et al.  Model-based simultaneous optimization of multiple design parameters for lithium-ion batteries for maximization of energy density , 2013 .

[42]  Chen Wei,et al.  Evaluation of performance of MPPT devices in PV systems with storage batteries , 2007 .

[43]  Jack W. Langelaan,et al.  Gust Energy Extraction for Mini- and Micro- Uninhabited Aerial Vehicles , 2008 .

[44]  John J. Rusek,et al.  Energy density of a methanol/hydrogen-peroxide fuel cell , 2003 .

[45]  Erdal Irmak,et al.  Application of a high efficient voltage regulation system with MPPT algorithm , 2013 .

[46]  Florian Holzapfel,et al.  Unlimited Endurance Performance of Solar UAVs with Minimal or Zero Electric Energy Storage , 2009 .

[47]  Soichiro Nakamura,et al.  Newton's method for fast speed MPPT of solar panel , 2011 .

[48]  Ajit Panesar,et al.  51st AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics, and materials conference, Orlando, Florida , 2010 .

[49]  Ramazan Akkaya,et al.  A genetic algorithm optimized ANN-based MPPT algorithm for a stand-alone PV system with induction motor drive , 2012 .

[50]  Gertjan Looye,et al.  Integrated Simulation Models for High-Altitude Solar-Powered Aircraft , 2012 .

[51]  Patrick Berry,et al.  The Sunriser - A Design Study in Solar Powered Flight , 2000 .

[52]  Bruno Scrosati,et al.  A contribution to the progress of high energy batteries: A metal-free, lithium-ion, silicon-sulfur battery , 2012 .

[53]  H. Weimerskirch,et al.  Changes in Wind Pattern Alter Albatross Distribution and Life-History Traits , 2012, Science.

[54]  Ali Zilouchian,et al.  A proposed maximum power point tracking algorithm based on a new testing standard , 2013 .

[55]  Anthony Colozza,et al.  Feasibility of a Long Duration Solar Powered Aircraft on Venus , 2004 .

[56]  Mohammad Hassan Moradi,et al.  Classification and comparison of maximum power point tracking techniques for photovoltaic system: A review , 2013 .

[57]  Xiang Zhang,et al.  Theoretical efficiency of 3rd generation solar cells: Comparison between carrier multiplication and down-conversion , 2012 .

[58]  R. Boucher,et al.  History of solar flight , 1984 .

[59]  William Paul King,et al.  High power rechargeable batteries , 2012 .

[60]  Vladimir Kolosnitsyn,et al.  Lithium-sulfur batteries: Problems and solutions , 2008 .

[61]  Gerhard Willeke,et al.  Thin crystalline silicon solar cells , 2002 .

[62]  Nicholas Roy,et al.  Enabling New Missions for Robotic Aircraft , 2009, Science.

[63]  Elmer G. Gilbert,et al.  Power Optimization of Solar-Powered Aircraft with Specified Closed Ground Tracks , 2013 .

[64]  Her-Terng Yau,et al.  Maximum power point tracking and optimal Li-ion battery charging control for photovoltaic charging system , 2012, Comput. Math. Appl..

[65]  Johan Nijs,et al.  Advanced cost-effective crystalline silicon solar cell technologies , 2001 .

[66]  P. Prathap,et al.  Thin film silicon solar cells by AIC on foreign substrates , 2011 .

[67]  Nathan Thomas Depenbusch,et al.  Atmospheric Energy Harvesting for Small Uninhabited Aircraft by Gust Soaring , 2011 .

[68]  Christopher J. Hartney Conceptual Design of a Model Solar-Powered Unmanned Aerial Vehicle , 2012 .

[69]  Kashif Ishaque,et al.  A review of maximum power point tracking techniques of PV system for uniform insolation and partial shading condition , 2013 .

[70]  Jian Guo,et al.  Development of a Solar Electric Powered UAV for Long Endurance Flight , 2011 .

[71]  Dana Mackenzie Avionics. A flapping of wings. , 2012, Science.

[72]  Ranko Goic,et al.  review of solar photovoltaic technologies , 2011 .

[73]  Xavier Mathew,et al.  CdTe/CdS solar cells on flexible substrates , 2004 .

[74]  Shichao Zhang,et al.  Preparation and enhanced electrochemical properties of nano-sulfur/poly(pyrrole-co-aniline) cathode material for lithium/sulfur batteries , 2010 .

[75]  Joachim L. Grenestedt,et al.  Optimal Energy Extraction During Dynamic Jet Stream Soaring , 2010 .

[76]  T. Oshiro,et al.  Analysis of MPPT characteristics in photovoltaic power system , 1997 .

[77]  In Jae Chung,et al.  Preparation and electrical properties of lithium–sulfur-composite polymer batteries , 2003 .

[78]  Jaw-Kuen Shiau,et al.  Optimal Level Turn of Solar-Powered Unmanned Aerial Vehicle Flying in Atmosphere , 2010 .

[79]  Chee Wei Tan,et al.  A review of energy sources and energy management system in electric vehicles , 2013 .

[80]  Yi-Hua Liu,et al.  A fast and low cost analog maximum power point tracking method for low power photovoltaic systems , 2011 .

[81]  Jing Sun,et al.  Application of gelatin as a binder for the sulfur cathode in lithium–sulfur batteries , 2008 .

[82]  Kwang Man Kim,et al.  Preparation and electrochemical properties of lithium–sulfur polymer batteries , 2002 .

[83]  Hironori Arakawa,et al.  Significant influence of TiO2 photoelectrode morphology on the energy conversion efficiency of N719 dye-sensitized solar cell , 2004 .

[84]  Martin A. Green,et al.  Progress and outlook for high-efficiency crystalline silicon solar cells , 2001 .

[85]  Zheng Guo,et al.  Research on characteristics of gravitational gliding for high-altitude solar-powered unmanned aerial vehicles , 2013 .

[86]  C. Pennycuick,et al.  The concept of energy height in animal locomotion: separating mechanics from physiology. , 2003, Journal of theoretical biology.

[87]  F. Yakuphanoglu,et al.  Unusual photocapacitance properties of a mono-crystalline silicon solar cell for optoelectronic applications , 2011 .

[88]  Enrico Cestino,et al.  Design of solar high altitude long endurance aircraft for multi payload & operations , 2006 .

[89]  Anthony J. Colozza,et al.  Venus atmospheric exploration by solar aircraft , 2002 .

[90]  Li Wang,et al.  Synthesis and reversible lithium storage of Cr2O5 as a new high energy density cathode material for rechargeable lithium batteries , 2013 .

[91]  R. J. Boucher,et al.  Sunrise, the world's first solar-powered airplane , 1985 .

[92]  Luis P. Bernal,et al.  Design and Performance of Low Reynolds Number Airfoils for Solar-Powered Flight , 2008 .

[93]  André Noth,et al.  Design of Solar Powered Airplanes for Continuous Flight , 2008 .

[94]  Anjan Chakrabarty FLIGHT PATH PLANNING OF UAV BASED ON ATMOSPHERIC ENERGY HARVESTING , 2010 .

[95]  Qing Wang,et al.  Polymer wiring of insulating electrode materials: An approach to improve energy density of lithium-ion batteries , 2009 .

[96]  Gottfried Sachs,et al.  Flying at No Mechanical Energy Cost: Disclosing the Secret of Wandering Albatrosses , 2012, PloS one.

[97]  J. Ferber,et al.  An electrical model of the dye-sensitized solar cell , 1998 .

[98]  Xu Ji,et al.  Performance study of solar cell arrays based on a Trough Concentrating Photovoltaic/Thermal system , 2011 .

[99]  Nam-In Kim,et al.  Correlation between positive-electrode morphology and sulfur utilization in lithium–sulfur battery , 2004 .

[100]  Florian Holzapfel,et al.  Periodic Optimal Control for Solar Aircraft with Unlimited Endurance Capability , 2008 .

[101]  Yasuhiko Takeda,et al.  Highly efficient solar cells using hot carriers generated by two-step excitation , 2011 .

[102]  S. D. Ishmael,et al.  Technical Findings, Lessons Learned, and Recommendations Resulting from the Helios Prototype Vehicle Mishap , 2007 .

[103]  Jubaer Ahmed,et al.  The application of soft computing methods for MPPT of PV system: A technological and status review , 2013 .

[104]  Obaid Rehman Alvi Development of Solar-Powered Aircraft for Multipurpose Application , 2010 .

[105]  Jack W. Langelaan,et al.  Biologically Inspired Flight Techniques for Small and Micro Unmanned Aerial Vehicles , 2008 .

[106]  Joachim L. Grenestedt,et al.  Towards perpetual flight of a gliding unmanned aerial vehicle in the jet stream , 2010, 49th IEEE Conference on Decision and Control (CDC).

[107]  M. Taguchi,et al.  Development status of high-efficiency HIT solar cells , 2011 .

[108]  Rajesh Kumar Nema,et al.  Maximum power point tracking control techniques: State-of-the-art in photovoltaic applications , 2013 .

[109]  Hongwen He,et al.  Model-based dynamic multi-parameter method for peak power estimation of lithium-ion batteries , 2012 .

[110]  Hironori Arakawa,et al.  Highly efficient plastic-substrate dye-sensitized solar cells with validated conversion efficiency of 7.6% , 2010 .

[111]  Jack W. Langelaan Gust Energy Extraction for Mini and Micro Uninhabited Aerial Vehicles , 2009 .

[112]  Alon Kuperman,et al.  Maximum power point matching versus maximum power point tracking for solar generators , 2013 .

[113]  C. Hua,et al.  An on-line MPPT algorithm for rapidly changing illuminations of solar arrays , 2003 .

[114]  Xiangwu Zhang,et al.  Lithiumoxygen batteriesLimiting factors that affect performance , 2011 .

[115]  Tao Yu,et al.  Influence of capacitance characteristic on I–V measurement of dye-sensitized solar cells , 2011 .