Verfügbarkeit: Solar photovoltaic power generation

Solar photovoltaic power generation:

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Bibliographische Detailangaben
Hauptverfasser:	Yang, Jinhuan (VerfasserIn), Yuan, Xiao (VerfasserIn), Ji, Liang (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Boston De Gruyter [2020]
Schriftenreihe:	De Gruyter graduate
Schlagworte:	Fotovoltaik Solarzelle TB: Textbook
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXIII, 477 Seiten Illustrationen, Diagramme
ISBN:	9783110531381 3110531380

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MARC


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Datensatz im Suchindex

_version_	1804181771251613697
adam_text	CONTENTS PREFACE * V BRIEF INTRODUCTION * VII CHAPTER 1 INTRODUCTION * 1 1.1 THE SIGNIFICANCE OF DEVELOPING AND UTILIZING SOLAR ENERGY ----- 1 1.1.1 FOSSIL FUELS ARE FACING A CRISIS OF DEPLETION * 1 1.1.2 PROTECTING THE ECOLOGICAL ENVIRONMENT GETS ATTENTION * 5 1.1.3 LIMITATIONS OF CONVENTIONAL POWER GRIDS * 13 1.2 CHARACTERISTICS OF SOLAR ENERGY ELECTRICAL GENERATION * 15 1.2.1 ADVANTAGES OF SOLAR ENERGY ELECTRICAL GENERATION * 15 1.2.2 DISADVANTAGES OF SOLAR ENERGY ELECTRICAL GENERATION * 16 1.2.3 TYPES OF SOLAR ENERGY ELECTRICAL GENERATION * 17 1.2.3.1 CONCENTRATOR SOLAR POWER GENERATION * 17 1.2.3.1.1 SOLAR TROUGH THERMAL POWER GENERATION ----- 17 1.2.3.1.2 SOLAR TOWER THERMAL POWER GENERATION * 18 1.2.3.1.3 SOLAR DISH-TYPE THERMAL POWER GENERATION * 18 1.2.3.2 SOLAR PV ELECTRICAL GENERATION * 18 1.3 THE DEVELOPMENT OF WORLD * S PV INDUSTRY IN RECENT YEARS * 19 1.3.1 PV CELL PRODUCTION ----- 19 1.3.2 PV APPLICATION MARKET ----- 22 1.4 THE DEVELOPMENT OF CHINA * S PV INDUSTRY ----- 25 1.5 PV POWER GENERATION BY SOME COUNTRIES * ORGANIZATIONS * 26 1.5.1 JAPAN -----26 1.5.2 EUROPEAN UNION ----- 27 1.5.3 INTERNATIONAL PV TECHNOLOGY ROADMAP STEERING COMMITTEE * 31 1.5.4 USA ----- 32 1.5.5 CHINA ----- 33 1.5.6 INTERNATIONAL ENERGY AGENCY * 35 REFERENCES * 38 EXERCISES ----- 39 CHAPTER 2 SOLAR RADIATION * 41 2.1 OVERVIEW OF THE SUN ----- 41 2.2 THE RELATIVE MOVEMENT OF THE SUN AND THE EARTH * 43 2.2.1 THE OVERVIEW OF THE EARTH ----- 43 2.2.2 APPARENT SOLAR TIME * 44 2.2.3 SUNRISE AND SUNSET PATTERNS ----- 47 X * CONTENTS 2.3 CELESTIAL COORDINATE SYSTEM * 47 2.3.1 EQUATORIAL COORDINATE SYSTEM * 48 2.3.1.1 HOUR ANGLE A ------- 48 2.3.1.2 SUN DECLINATION ANGLE S -------49 2.3.2 HORIZONTAL COORDINATE SYSTEM ----- 50 2.3.2.1 ZENITH ANGLE 0 Z ---- 51 2.3.2.2 ALTITUDE ANGLE A S ------ 51 2.3.2.3 AZIMUTH ANGLE Y S ------ 51 2.3.3 THE CALCULATION OF SOLAR PARAMETERS * 51 2.3.3.1 THE CALCULATION OF ALTITUDE ANGLE * 51 2.3.3.2 THE CALCULATION OF AZIMUTH ANGLE ---- 52 2.3.3.3 THE HOUR ANGLE AT SUNRISE AND SUNSET U S ---- 53 2.3.3.4 SUNSHINE DURATION N ------ 53 23.3.5 AZIMUTH ANGLE AT SUNRISE AND SUNSET ----- 54 2.33.6 SOLAR INCIDENCE ANGLE ----- 54 2.4 ANGLE OF TRACKING SURFACE * 56 2.5 SOLAR RADIATION ----- 59 2.5.1 SOLAR RADIATION OUTSIDE THE ATMOSPHERE * 59 2.5.1.1 SOLAR CONSTANT ------ 59 2.5.1.2 SOLAR RADIATION REACHING EXTRATERRESTRIAL SURFACE * 60 2.5.13 AIR MASS ------ 63 2.5.2 SOLAR IRRADIANCE AT THE GROUND SURFACE * 65 2.5.2.1 ATMOSPHERIC TRANSPARENCY ----- 65 2.5.2.2 NORMAL SOLAR IRRADIANCE AT THE GROUND SURFACE * 66 2.5.23 DIRECT SOLAR IRRADIANCE ON HORIZONTAL SURFACE * 66 2.5.2.4 DIFFUSE SOLAR IRRADIANCE ON THE HORIZONTAL SURFACE * 67 2.5.2.5 TOTAL SOLAR IRRADIANCE ON THE HORIZONTAL SURFACE * 67 2.5.2.6 CLARITY INDEX ------67 2.5.2.7 THE RATIO OF DIFFUSE IRRADIATION TO TOTAL IRRADIATION ----- 68 2.5.2.7.1 THE RATIO OF HOURLY DIFFUSE IRRADIATION TO TOTAL IRRADIATION ----- 68 2.5.2.7.2 THE RATIO OF DAILY DIFFUSE IRRADIATION TO TOTAL IRRADIATION ----- 68 2.5.2.7.3 RATIO OF MONTHLY DIFFUSE IRRADIATION TO TOTAL IRRADIATION * 69 2.5.3 HOURLY SOLAR IRRADIATION ON TILT SURFACES ----- 70 2.53.1 HOURLY SOLAR BEAM IRRADIATION ON TILT SURFACES / T ,B * 70 2.53.2 RATIO OF HOURLY BEAM RADIATION ON TILTED TO HORIZONTAL SURFACE R B * 71 2.5.33 HOURLY DIFFUSE IRRADIATION ON TILT PLANES ----- 72 2.53.4 GROUND REFLECTED IRRADIATION ----- 72 2.53.5 TOTAL HOURLY SOLAR IRRADIATION ON TILT PLANES - SKY ISOTROPIC MODEL ----- 73 2.53.6 TOTAL HOURLY SOLAR IRRADIATION ON TILT PLANES - SKY ANISOTROPY MODEL ----- 73 CONTENTS * XI 2.5.3.6.1 HDKR MODEL ----- 73 2.5.3.6.2 PEREZ MODEL ------ 74 2.5.4 MONTHLY MEAN SOLAR IRRADIATION ON TILT PLANE * 75 2.5.4.1 SKY ISOTROPIC MODEL ----- 75 2.5.4.2 SKY ANISOTROPY MODEL --- 76 2.5.4.2.1 KLEIN AND THEILACKER * S METHOD ----- 76 2.5.4.2.2 RETSCREEN METHOD * 79 REFERENCES * 81 EXERCISES * 81 CHAPTER 3 BASIC PRINCIPLES OF CRYSTALLINE SILICON PV CELLS * 83 3.1 CLASSIFICATION OF PV CELLS -----83 3.1.1 CLASSIFICATION ACCORDING TO THE SUBSTRATE MATERIALS * 83 3.1.1.1 CRYSTALLINE SILICON PV CELLS * 83 3.1.1.2 MONOCRYSTALLINE SILICON PV CELLS * 83 3.1.1.3 POLYCRYSTALLINE SILICON PV CELLS * 84 3.1.1.4 QUASI-MONOCRYSTALLINE SILICON PV CELL * 84 3.1.1.5 SILICON-BASED THIN-FILM PV CELLS * 84 3.1.1.5.1 AMORPHOUS SILICON PV CELLS ----- 84 3.1.1.5.2 MICROCRYSTALLINE SILICON (PC-SI) PV CELLS ----- 85 3.1.1.5.3 COMPOUND PV CELLS ----- 86 3.1.1.5.3.1 MONOCRYSTALLINE COMPOUND PV CELLS * 86 3.1.1.5.3.2 POLYCRYSTALLINE COMPOUND PV CELLS * 86 3.1.2 CLASSIFICATION ACCORDING TO THE STRUCTURE OF PV CELLS * 86 3.1.2.1 HOMOJUNCTION PV CELLS ------ 86 3.1.2.2 HETEROJUNCTION PV CELLS ------- 86 3.1.2.3 SCHOTTKY JUNCTION PV CELLS ------ 86 3.1.2.4 COMPOSITE JUNCTION PV CELLS * 86 3.1.3 CLASSIFICATION ACCORDING TO THE APPLICATION OF PV CELLS * 87 3.1.3.1 SPACE PV CELLS -----87 3.1.3.2 TERRESTRIAL PV CELLS * 87 3.2 WORKING PRINCIPLE OF PV CELLS -----87 3.2.1 SEMICONDUCTOR -----87 3.2.2 BANDGAP STRUCTURE ----- 89 3.2.3 INTRINSIC SEMICONDUCTORS AND DOPED SEMICONDUCTORS * 91 3.2.4 N-TYPE AND P-TYPE SEMICONDUCTORS * 94 3.2.4.1 N-TYPE SEMICONDUCTORS * 94 3.2.4.2 P-TYPE SEMICONDUCTORS ------ 95 3.2.5 P-N JUNCTIONS ----- 96 3.2.5.1 THE MAJORITY CARRIER DIFFUSION MOTION * 96 3.2.5.2 MINORITY CARRIER DRIFT MOTION ------ 96 XII CONTENTS 3.2.6 PHOTOVOLTAIC EFFECT * 97 3.2.7 PV CELL PHOTOELECTRIC CONVERSION PRINCIPLE * 99 3.2.8 STRUCTURE OF CRYSTALLINE SILICON PV CELLS * 100 3.3 PV CELL ELECTRICAL CHARACTERISTICS * 101 3.3.1 STANDARD TEST CONDITIONS * 101 3.3.2 PV CELL EQUIVALENT CIRCUIT * 101 3.3.3 THE MAIN TECHNICAL PARAMETERS OF PV CELLS * 104 3.3.3.1 CURRENT-VOLTAGE CURVE * 104 3.3.3 2 MAXIMUM POWER POINT * 104 3.3.3 3 OPEN-CIRCUIT VOLTAGE * 107 3.3.3.4 SHORT-CIRCUIT CURRENT * 107 3.3.3 5 FILL FACTOR (CURVE FACTOR) * 107 3.3.3.6 PV CELL CONVERSION EFFICIENCY * 108 33.3.7 CURRENT TEMPERATURE COEFFICIENT * 108 3.3.3 8 VOLTAGE TEMPERATURE COEFFICIENT * 111 3.3.3 9 POWER TEMPERATURE COEFFICIENT * 111 3.3.3.10 EFFECT OF SOLAR IRRADIANCE * 113 3.3.4 FACTORS AFFECTING PV CELL CONVERSION EFFICIENCY * 114 3.3.4.1 BANDGAP * 114 33.4.2 TEMPERATURE ------ 115 3.3.43 MINORITY CARRIER LIFETIME * 116 33.4.4 LIGHT INTENSITY ----- 116 33.4.5 DOPING CONCENTRATION AND PROFILE DISTRIBUTION * 116 33.4.6 SURFACE RECOMBINATION RATE * 117 33.4.7 SERIES AND SHUNT RESISTORS * 118 33.4.8 ABSORPTION OF LIGHT ----- 119 REFERENCES * 120 EXERCISES * 120 CHAPTER 4 THIN-FILM PV CELLS * 123 4.1 INTRODUCTION * 123 4.1.1 ADVANTAGES AND DISADVANTAGES OF THIN-FILM PV CELLS * 123 4.1.1.1 LOW PRODUCTION COST ----- 123 4.1.1.2 LESS MATERIAL * 123 4.1.13 SIMPLE MANUFACTURING PROCESS * 123 4.1.1.4 LOWER ELECTRICITY CONSUMPTION DURING PRODUCTION * 124 4.1.1.5 BETTER HIGH-TEMPERATURE PERFORMANCE * 124 4.1.1.6 BETTER LOW IRRADIANCE PERFORMANCE * 124 4.1.1.7 SUITABLE FOR BIPV ----- 124 4.1.2 CATEGORIES OF THIN-FILM PV CELLS * 125 4.2 AMORPHOUS SILICON PV CELL ----- 125 CONTENTS * XIII 4.2.1 DEVELOPMENT HISTORY OF A-SI PV CELL ----- 125 4.2.2 STRUCTURE OF A-SI PV CELL ----- 126 4.2.2.1 SINGLE-JUNCTION A-SI PV CELL ----- 126 4.2.2.2 MULTIJUNCTION PV CELL ----- 128 4.2.2.2.1 A-SI/A-SI DOUBLE-JUNCTION STRUCTURE ----- 128 4.2.2.2.2 A-SI/A-SIGE DOUBLE-JUNCTION STRUCTURE ----- 128 4.2.2.23 A-SI/PC-SI DOUBLE-JUNCTION STRUCTURE [5] ----- 130 4.2.2.2.4 A-SI/A-SIGE/A-SIGE TRIPLE-JUNCTION STRUCTURE * 132 4.2.2.2.5 A-SI/A-SIGE/PC-SI TRIPLE-JUNCTION STRUCTURE ----- 132 4.2.2.2.6 A-SI/NC-SI/PC-SI TRIPLE-JUNCTION STRUCTURE ----- 134 4.2.3 FABRICATION OF A-SI THIN-FILM PV CELL ----- 134 4.2.4 COMMERCIALIZATION OF A-SI THIN-FILM PV CELL * 134 4.3 CADMIUM TELLURIDE PV CELL * 135 4.3.1 CHARACTERISTICS OF CDTE MATERIALS AND CELLS * 135 4.3.2 STRUCTURE OF CDTE PV CELL ----- 136 4.3.3 MANUFACTURING OF CDTE THIN-FILM PV CELLS ----- 138 4.3.3.1 MANUFACTURE PROCESS OF CDTE THIN-FILM PV CELL * 138 4.33.2 CDTE THIN-FILM PREPARATION PROCESS * 138 4.33.2.1 VAPOR TRANSPORT DEPOSITION ----- 138 4.33.2.2 CLOSED-SPACE SUBLIMATION ----- 140 4.3.3.23 MAGNETRON SPUTTERING ----- 140 4.3.4 COMMERCIALIZATION OF CDTE THIN-FILM PV MODULES * 141 4.4 COPPER INDIUM GALLIUM SELENIDE THIN-FILM PV CELL * 142 4.4.1 CHARACTERISTICS OF CIGS PV CELL * 143 4.4.2 STRUCTURE OF A CIGS THIN-FILM PV CELL ----- 143 4.4.3 FABRICATION OF CIGS THIN-FILM PV CELL ----- 144 4.43.1 MANUFACTURING PROCESS OF CIGS THIN-FILM PV CELL ----- 144 4.43.2 PREPARATION OF CIGS FILM * 145 4.43.2.1 MULTICOMPONENT CO-DISTILLATION ----- 146 4.43.2.2 SPUTTERING AND SELENIZATION ----- 148 4.4.4 COMMERCIALIZATION OF CIGS THIN-FILM PV CELL * 149 4.5 PEROVSKITE PV CELLS ----- 152 4.5.1 DEVELOPMENT HISTORY OF PEROVSKITE PV CELL * 152 4.5.2 FEATURES OF PEROVSKITE PV CELL ----- 154 4.5.3 COMMERCIALIZATION OF PEROVSKITE PV TECHNOLOGY AND ITS PROBLEMS ----- 155 4.6 DYE-SENSITIZED CELL * 157 4.7 ORGANIC SEMICONDUCTOR PV CELL * 160 4.8 MARKET AND DEVELOPMENT PROSPECTS OF THIN-FILM PV CELL * 160 REFERENCES * 161 EXERCISES * 162 XIV * CONTENTS CHAPTER 5 CONCENTRATOR PV AND SOLAR TRACKER * 163 5.1 CPV POWER GENERATION * 163 5.1.1 ADVANTAGES AND DISADVANTAGES OF CPV * 164 5.1.1.1 ADVANTAGES ------ 164 5.1.1.2 DISADVANTAGES ----- 165 5.1.2 CPV SYSTEM COMPONENTS * 165 5.1.2.1 CPV CELLS ----- 165 5.1.2.2 CONCENTRATOR ----- 168 5.1.2.3 SOLAR TRACKER * 173 5.1.2.4 COOLING COMPONENTS ----- 174 5.1.3 CPV SYSTEMS * 176 5.1.3.1 LOW-CONCENTRATION PV (LCPV) ----- 178 5.1.3.2 MEDIUM-CONCENTRATION PHOTOVOLTAIC (MCPV) * 181 5.1.3.3 HCPV SYSTEM ----- 183 5.1.4 CURRENT SITUATION OF CPV ------ 189 5.2 SOLAR TRACKER SYSTEM * 190 5.2.1 CLASSIFICATION OF TRACKERS * 190 5.2.1.1 BY APPLICATION ------ 190 5.2.1.2 BY NUMBER OF AXES ----- 191 5.2.1.3 BY DRIVING POWER ----- 194 5.2.1.4 BY CONTROL TYPE ------ 194 5.2.2 APPLICATION OF TRACKING SYSTEM * 195 REFERENCES * 199 EXERCISES ----- 199 CHAPTER 6 PV MODULE MANUFACTURING * 201 6.1 SILICON MATERIAL MANUFACTURING * 201 6.1.1 MG-SI MANUFACTURING ----- 202 6.1.2 HIGH-PURITY POLY C-SI MANUFACTURING ----- 202 6.1.2.1 MODIFIED SIEMENS METHOD -----203 6.1.2.1.1 SYNTHESIS OF TRICHLOROSILANE ------ 204 6.1.2.1.2 PURIFICATION OF TRICHLOROSILANE BY DISTILLATION ----- 204 6.1.2.1.3 REDUCTION OF TRICHLOROSILANE ------ 205 6.1.2.1.4 SILICON TETRACHLORIDE HYDROGENATION ----- 206 6.1.2.2 FLUIDIZED BED REACTOR METHOD ------ 207 6.1.2.3 SILANE THERMAL DECOMPOSITION ------ 208 6.2 C-SI GROWTH TECHNOLOGY ----- 208 6.2.1 MONO C-SI GROWTH TECHNOLOGY ------ 210 6.2.1.1 CZOCHRALSKI METHOD ----- 210 6.2.1.1.1 MELTING ----- 211 CONTENTS * XV 6.2.1.1.2 SEEDING ------ 211 6.2.1.13 LEADING ------ 212 6.2.1.1.4 SHOULDERING ----- 212 6.2.1.1.5 EQUALING DIAMETER * 212 6.2.1.1.6 ENDING ------ 212 6.2.1.1.7 COOLING ------ 212 6.2.1.2 ZONE MELTING METHOD * 212 6.2.13 MAGNETIC FIELD APPLIED CZOCHRALSKI METHOD * 213 6.2.2 CASTING POLYCRYSTALLINE METHOD * 214 6.2.2.1 BRIDGEMAN METHOD * 215 6.2.2.2 HEM-HEAT EXCHANGE METHOD ------ 215 6.2.23 ELECTROMAGNETIC CASTING METHOD ---- 216 6.2.2.4 CASTING TECHNOLOGY * 217 6.23 CASTING MONO C-SI METHOD * 218 6.23.1 SEEDLESS CRYSTAL INGOT * 218 6.23.2 SEED CRYSTAL INGOT ----- 219 6.3 C-SI PROCESSING TECHNOLOGY * 219 6.3.1 C-SI SQUARE CUT * 220 6.3.2 C-SI WAFER ----- 220 6.4 CRYSTAL SILICON PV CELL MANUFACTURING TECHNOLOGY * 221 6.4.1 SURFACE TEXTURING ----- 222 6.4.2 DIFFUSION JUNCTION PROCESS ----- 226 6.4.3 EDGE ISOLATION * 228 6.4.4 REMOVE PHOSPHOSILICATE GLASS ----- 229 6.4.5 DEPOSITION ANTIREFLECTION FILM ----- 229 6.4.6 SCREEN PRINTING ELECTRODE * 231 6.4.7 HIGH TEMPERATURE SINTERING ----- 232 6.4.8 PV CELL I * V CHARACTERISTICS TEST * 233 6.5 PV MODULE PACKAGING ------ 235 6.5.1 PV MODULE PACKAGING MATERIALS * 237 6.5.1.1 PV GLASS ------ 237 6.5.1.2 ENCAPSULATION MATERIAL ----- 238 6.5.13 BACKSHEET MATERIAL * 239 6.5.1.4 FRAME ----- 239 6.5.1.5 JUNCTION BOX ----- 239 6.5.1.6 SOLDER RIBBON * 239 6.5.1.7 OTHER MATERIALS ------ 240 6.5.2 PV MODULE PACKAGE PROCESS ----- 240 6.5.2.1 CELL SORTING ------ 240 63.2.2 STRING SOLDERING ----- 241 6.5.23 STACKS ----- 241 63.2.4 LAMINATION ------ 241 XVI * CONTENTS 6.5.2.S 6.S.2.6 6.S.2.7 6.5.2.S TRIMMING ----- 242 INSTALL FRAME * 242 INSTALL JUNCTION BOX ----- 243 TESTING -----243 REFERENCES * 243 EXERCISE ----- 244 CHAPTER 7 COMPONENTS OF A PV SYSTEM * 245 7.1 PV ARRAY ----- 245 7.2 DIODE ----- 246 7.2.1 BLOCKING (ANTI-BACKFLOW) DIODES * 246 7.2.2 BYPASS DIODE ----- 246 7.3 ENERGY STORAGE EQUIPMENT * 247 7.3.1 MAINSTREAM ENERGY STORAGE TECHNOLOGY * 247 7.3.1.1 MECHANICAL ENERGY STORAGE * 248 7.3.1.1.1 PUMPED ENERGY STORAGE * 248 7.3.1.1.2 FLYWHEEL ENERGY STORAGE * 248 7.3.1.1.3 COMPRESSED AIR ENERGY STORAGE * 250 7.3.1.2 ELECTROCHEMICAL ENERGY STORAGE * 250 7.3.1.2.1 LEAD-ACID BATTERY * 250 7.3.1.2.2 SODIUM-SULFUR BATTERY ----- 251 7.3.1.2.3 FLOW BATTERY * 252 7.3.1.2.4 SODIUM/NICKEL CHLORIDE BATTERY * 252 7.3.1.2.5 LITHIUM-ION BATTERY * 252 7.3.1.3 ELECTROMAGNETIC ENERGY STORAGE * 253 7.3.1.3.1 SUPERCONDUCTING MAGNETIC ENERGY STORAGE * 253 7.3.1.3.2 SUPERCAPACITOR ENERGY STORAGE * 254 7.3.1.3.3 HIGH-ENERGY CAPACITOR ENERGY STORAGE * 254 7.3.2 BATTERIES FOR PV SYSTEMS * 256 7.3.2.1 LEAD-ACID BATTERY * 256 7.3.2.1.1 BASIC STRUCTURE ----- 257 7.3.2.1.2 MODEL CODE ----- 258 7.3.2.2 MAINTENANCE-FREE LEAD-ACID BATTERY * 259 73.13 VALVE-REGULATED SEALED LEAD-ACID BATTERY * 259 7.3.2.4 LEAD-ACID BATTERY PERFORMANCE PARAMETERS * 260 7.3.2.4.1 BATTERY VOLTAGE * 260 7.3.2.4.2 BATTERY CAPACITY ----- 261 7.3.2.4.2.1 RELATIONSHIP BETWEEN BATTERY CAPACITY AND DISCHARGE RATE * 261 73.2.4.2.2 THE RELATIONSHIP BETWEEN BATTERY CAPACITY AND TEMPERATURE * 262 CONTENTS * XVII 7.3.2.4.3 BATTERY EFFICIENCY ----- 262 7.3.2.4.4 BATTERY SELF-DISCHARGE ------ 263 7.3.2.4.5 BATTERY DISCHARGE DEPTH AND CHARGE STATE ----- 264 73.2.4.6 BATTERY LIFE ----- 265 7.4 CONTROLLER ----- 266 7.4.1 TYPES OF CONTROLLERS ------ 266 7.4.1.1 CONTROLLER CLASSIFICATION ------ 266 7.4.1.1.1 PULSE-WIDTH MODULATION (PWM) CONTROLLER IN PARALLEL CONNECTION ----- 266 7.4.1.1.2 PWM CONTROLLER IN SERIES CONNECTION ----- 267 7.4.1.1.3 MAXIMUM POWER POINT TRACKING CONTROLLER * 267 7.4.1.2 COMPARISON OF THREE CONTROLLERS * 268 7.4.1.2.1 PWM CONTROLLER ----- 268 7.4.1.2.2 MAXIMUM POWER TRACKING CONTROLLER ----- 268 7.4.2 THE MAIN FUNCTIONS OF THE CONTROLLER ----- 268 7.4.2.1 BATTERY CHARGE AND DISCHARGE MANAGEMENT * 268 7.4.2.2 EQUIPMENT PROTECTION FUNCTIONS * 269 7.4.2.2.1 LOAD SHORT-CIRCUIT/OVERLOAD PROTECTION ----- 269 7.4.2.2.2 INTERNAL SHORT-CIRCUIT PROTECTION ----- 269 7.4.2.23 REVERSE DISCHARGE PROTECTION ----- 269 7.4.2.2.4 REVERSE POLARITY PROTECTION ----- 269 7.4.2.2.5 LIGHTNING PROTECTION ----- 269 7.4.23 PV SYSTEM STATUS DISPLAY ----- 269 7.4.2.4 PV SYSTEM DATA AND INFORMATION STORAGE * 270 7.4.2.5 PV SYSTEM FAULT HANDLING AND ALARM * 270 7.4.2.6 PV SYSTEM REMOTE MONITORING AND CONTROL * 270 7.4.3 MAIN TECHNICAL SPECIFICATIONS OF CONTROLLERS * 270 7.43.1 QUIESCENT CURRENT ----- 270 7.43.2 LOOP VOLTAGE DROP ----- 270 7.4.33 VIBRATION RESISTANCE * 271 7.43.4 HIGH VOLTAGE RESISTANCE ----- 271 7.43.5 HIGH CURRENT RESISTANCE ----- 271 7.5 GRID-CONNECT PV INVERTERS ----- 271 7.5.1 TYPE OF GRID-CONNECT PV INVERTERS ----- 271 7.5.2 MAIN REQUIREMENTS FOR GRID-CONNECT PV INVERTERS * 273 7.5.3 HOW GRID-CONNECT PV INVERTER WORKS? ----- 274 7.5.4 MAIN FUNCTIONS OF GRID-CONNECT PV INVERTERS ----- 276 7.5.4.1 MPPT CONTROL ----- 276 7.5.4.2 GRID CONNECTION ----- 277 7.5.5 SYSTEM PROTECTION FUNCTION ----- 279 7.5.5.1 PID PROTECTION ----- 280 7.5.5.2 ANTI-ISLANDING FUNCTION ----- 281 XVIII * CONTENTS 7.5.6 OTHER ASPECTS * 281 REFERENCES * 282 EXERCISES * 283 CHAPTER 8 PHOTOVOLTAIC POWER GENERATION SYSTEM DESIGN * 285 8.1 MAIN TARGET OF PV SYSTEM DESIGN * 285 8.1.1 DEFINITION AND CLASSIFICATION OF PV SYSTEMS * 285 8.1.2 TARGET AND REQUIREMENT OF PV SYSTEM DESIGN * 286 8.2 DESIGN OF GRID-CONNECTED PV SYSTEM * 286 8.2.1 THE CAPACITY DESIGN OF GRID-CONNECTED PV SYSTEM * 286 8.2.1.1 FACTORS THAT DETERMINE THE ELECTRIC ENERGY PRODUCTION * 286 8.2.1.1.1 INSTALLED CAPACITY * 286 8.2.1.1.2 PERFORMANCE RATIO (PR) ----- 287 8.2.1.1.3 SOLAR IRRADIATION * 289 8.2.1.2 ESTIMATE ENERGY PRODUCTION FOR GRID-CONNECTED PV SYSTEM * 290 8.2.1.2.1 CONFIRM THE SITE PARAMETERS * 290 8.2.1.2.2 OBTAINED THE OPTIMAL TILT ANGEL ----- 290 8.2.1.2.3 SET THE PR ----- 292 8.2.1.2.4 CALCULATION EQUATION ----- 293 8.2.1.2.5 OBTAIN THE ENERGY PRODUCTION OF GRID-CONNECTED PV SYSTEM * 293 8.2.1.3 INTRODUCTION OF COMMON DESIGN SOFTWARE * 295 8.2.2 GRID-CONNECTED PV POWER STATION AND GRID-CONNECTION * 299 8.2.2.1 REQUIREMENT OF GRID CONNECTION FOR PV POWER STATION * 299 8.2.2.1.1 HARMONIC AND WAVEFORM DISTORTION * 299 8.2.2.1.2 VOLTAGE DEVIATION ----- 299 8.2.2.1.3 VOLTAGE FLUCTUATION AND FLICKER ----- 300 8.2.2.1.4 DEGREE OF VOLTAGE UNBALANCE * 301 8.2.2.1.5 DC COMPONENT ----- 301 8.2.2.1.6 POWER FACTOR * 301 8.2.2.2 GRID-CONNECTED TYPE OF PV SYSTEM * 302 8.2.2.2.1 SINGLE-BRANCH GRID-CONNECTED TYPE * 302 8.2.2.2.2 MULTIBRANCH GRID-CONNECTED TYPE ----- 302 8.2.2.2.3 PARALLEL-CONNECTED GRID-CONNECTED TYPE * 303 8.2.2.3 GRID CONNECTION METHOD OF PV SYSTEM * 303 8.2.2.3.1 SMALL-SCALE GRID-CONNECTED PV SYSTEM * 303 8.2.2.3.1.1 * NET METERING * METHOD ----- 304 8.2.2.3.1.2 FEED-IN TARIFF METHOD ----- 305 8.2.2.3.2 LARGE- AND MEDIUM-SIZED PV POWER STATIONS * 305 8.2.3 BASIC FLOWCHART OF GRID-CONNECTED PV SYSTEM DESIGN * 308 8.2.3.1 COLLECTING PRIMARY DATA * 308 5.2.3.2 SITE SELECTION AND INVESTIGATION * 308 CONTENTS * XIX 8.2.33 GENERAL LAYOUT ARRANGEMENT * 308 8.23.4 DETERMINE EQUIPMENT CONFIGURATION AND MODEL * 309 8.23.5 SELECT THE APPROPRIATE GRID INVERTER ----- 309 8.23.6 DETERMINE THE GRID-CONNECTION METHOD OF PV SYSTEM * 311 8.23.7 DETERMINE THE NUMBER OF PV MODULES CONNECTED IN SERIES AND PARALLEL * 311 8.23.8 CALCULATE THE OPTIMAL PV ARRAY TILT ANGLE * 311 8.23.9 CONDUCT OVERALL DESIGN OF THE PROJECT SITE TO DETERMINE THE LAYOUT OF PV ARRAYS * 312 8.2.3.10 ANALYZE THE INFLUENCE OF DISTRIBUTED ACCESS CAPACITY ON DISTRIBUTION NETWORK * 312 8.2.3.11 ASSESS COSTS AND BENEFITS * 312 8.3 THE DESIGN OF OFF-GRID PV SYSTEM * 312 8.3.1 REQUIREMENTS OF OFF-GRID PV SYSTEM DESIGN * 313 8.3.2 TECHNICAL CONDITIONS ----- 313 83.2.1 LOAD PROPERTIES * 313 83.2.2 THE CONCEPT OF SEVERAL KINDS OF SUNSHINE * 314 83.2.2.1 POSSIBLE SUNSHINE DURATION * 314 83.2.2.2 SUNSHINE DURATION ----- 314 8.3.2.23 PERCENTAGE OF SUNSHINE * 315 83.2.2.4 TWILIGHT DURATION ----- 315 83.2.2.5 PEAK SUN HOUR ----- 315 8.3.23 TEMPERATURE EFFECT * 316 83.2.4 BATTERY AUTONOMY DAYS * 317 8.3.3 SELECTION OF PV ARRAY TILT ANGLE * 317 8.33.1 PV ARRAY SHOULD BE PLACED AS TILT IF POSSIBLE * 317 8.33.2 DETERMINE THE OPTIMAL TILT ANGLE * 318 8.3.4 DESIGN OF BALANCED LOAD PV SYSTEMS * 319 83.4.1 DETERMINE THE LOAD ELECTRICITY CONSUMPTION * 319 83.4.2 CALCULATE SOLAR RADIATION ON THE PV ARRAY * 319 8.3.43 CALCULATE MONTHLY SURPLUS OR DEFICIT OF POWER GENERATION ----- 320 83.4.4 DETERMINE THE CUMULATIVE DEFICIT AMOUNT J I-ZJQ,-I ----- 321 83.4.5 DETERMINE OUTPUT CURRENT OF THE PV ARRAY ----- 321 83.4.6 CALCULATE THE OPTIMAL TILT ANGLE * 322 83.4.7 OBTAIN CAPACITY OF BATTERY AND PV ARRAY * 322 83.4.8 DECIDE THE BEST CONFIGURATION ----- 322 83.4.9 CASE ANALYSIS ----- 324 8.3.4.10 OFF-GRID PV SYSTEM CAPACITY DISCUSSION ------ 327 8.3.5 DESIGN PV SYSTEMS WITH SEASONAL LOAD * 328 8.3.6 PV SYSTEM DESIGN FOR LOAD WITH SPECIAL REQUIREMENTS * 329 8.4 PV POWER SYSTEM HARDWARE DESIGN * 330 8.4.1 SITE LAYOUT ----- 330 XX * CONTENTS 8.4.1.1 LENGTH OF OBSTRUCTER SHADOWS * 331 8.4.1.2 MINIMUM DISTANCE BETWEEN TWO ROWS ----- 333 8.4.1.3 LAYOUT OF PV ARRAYS ----- 334 8.4.1.3.1 THE MINIMUM HEIGHT BETWEEN THE GROUND AND THE LOWEST POINT OF PV MODULE IS 0.3 M ----- 334 8.4.1.3.2 CALCULATE THE DISTANCE BETWEEN TWO ROWS * 334 8.4.1.3.3 CALCULATE THE NUMBER OF PV ROWS * 335 8.4.1.3.4 CALCULATE THE NUMBER OF PV MODULES IN EACH ROW * 335 8.4.1.3.5 CALCULATE THE TOTAL POWER OF INSTALLED MODULES * 335 8.4.1.4 DESIGN OF ARRAY RACKS * 336 8.4.2 DISTRIBUTION ROOM AND ELECTRICAL DESIGN * 336 8.4.3 SELECTION OF AUXILIARY EQUIPMENT * 337 8.4.3.1 STORAGE BATTERY ----- 337 5.4.3.2 CONTROLLER ----- 337 8.43.3 INVERTER ----- 337 8.43.4 LIGHTNING PROTECTION DEVICE ----- 338 8.43.5 FIRE SAFETY ----- 338 8.5 OTHER DESIGNS ----- 338 REFERENCES * 339 EXERCISES * 340 CHAPTER 9 PV PROJECTS CONSTRUCTION, ACCEPTANCE, AND MAINTENANCE * 343 9.1 INSTALLATION OF PV POWER GENERATION SYSTEM * 343 9.1.1 PREPARATION BEFORE INSTALLATION * 344 9.1.2 INSTALLATION OF PV ARRAYS * 344 9.1.2.1 PREPARATION BEFORE PV ARRAY INSTALLATION * 344 9.1.2.2 SITE INSTALLATION ----- 346 9.1.23 SAFETY PRECAUTIONS [6] ------- 349 9.1.3 INSTALLATION OF ELECTRICAL EQUIPMENT * 349 9.13.1 TECHNICAL REQUIREMENT * 349 9.13.2 INSTALLATION LOCATION * 351 9.1.33 WIRING CONNECTION ------ 351 9.13.4 WIRING SEQUENCE ----- 352 9.1.4 INSTALLATION OF STORAGE BATTERY PACKS * 353 9.1.4.1 INSTALLATION PRECAUTIONS * 353 9.1.4.2 SET-UP FOR BATTERY ROOM * 353 9.1.43 CONNECTION WIRE ----- 354 9.1.4.4 PREPARATION OF ELECTROLYTE * 354 9.2 COMMISSIONING OF PV SYSTEMS ----- 354 9.2.1 PREPARATION BEFORE COMMISSIONING * 354 9.2.2 COMMISSIONING OF PV ARRAY ----- 355 CONTENTS * XXI 9.2.2.1 GENERAL REVIEW * 355 9.2.2.2 INSPECTION AND MEASUREMENT FOR PV ARRAYS * 355 9.2.2.3 PV STRING TEST ------ 356 9.2.3 COMMISSIONING OF CONTROLLER * 357 9.2.3.1 DOCUMENTATION CHECK * 357 9 2.3.2 PERFORMANCE TESTING ------ 357 9 2.3.3 CONNECTING WIRES ------ 358 9.2.4 COMMISSIONING OF OFF-GRID SYSTEM INVERTER * 358 9.2.5 COMMISSIONING OF GRID-CONNECTED INVERTER * 359 9.2.5.1 PERFORMANCE TESTING ----- 359 9 2.5.2 CONNECTING WIRES ------ 365 9.3 ACCEPTANCE OF PV PROJECT * 365 9.3.1 ACCEPTANCE OF SUBENGINEERING PROJECTS * 366 9.3.1.1 CIVIL ENGINEERING ----- 366 9.3.1.2 INSTALLATION ENGINEERING * 366 9.3.1.3 OTHER SUBENGINEERING PROJECTS ----- 367 9.3.2 ACCEPTANCE OF PROJECT START-UP ------ 367 9.3.3 ACCEPTANCE OF PROJECT COMMISSIONING AND TRANSFER * 368 9.3.4 ACCEPTANCE OF PROJECT COMPLETION ----- 368 9.4 MAINTENANCE AND MANAGEMENT FOR PV SYSTEMS * 368 9.4.1 ROUTINE MAINTENANCE * 369 9.4.1.1 ARRAY INSPECTION ----- 369 9.4.1.2 EQUIPMENT INSPECTION ----- 369 9.4.1.3 BATTERY MAINTENANCE * 369 9.4.2 PERIODICAL INSPECTION * 369 REFERENCES * 371 EXERCISES ----- 371 CHAPTER 10 APPLICATIONS OF PHOTOVOLTAIC SYSTEMS * 373 10.1 CLASSIFICATION OF GROUND PV SYSTEMS * 373 10.1.1 PICO PV SYSTEM ----- 373 10.1.2 OFF-GRID RESIDENTIAL SYSTEM ----- 376 10.1.3 OFF-GRID NONRESIDENTIAL SYSTEM ----- 378 10.1.3.1 PV PUMP ----- 378 10.1.3.1.1 PV PUMP MAIN COMPONENTS * 379 10.1.3.1.2 PV WATER PUMP DESIGN ----- 379 10.1.3.2 SOLAR FAN HAT * 381 10.1.3.3 COMMUNICATION PV POWER ----- 382 10.1.3.4 OFF-GRID POWER SOURCE ----- 385 10.1.3.4.1 SOLAR BEACON LIGHT * 385 10.1.3.4.2 CATHODIC PROTECTION POWER SUPPLY FOR OIL AND GAS PIPELINES * 386 XXII CONTENTS 10.1.3.5 EMERGENCY MANAGEMENT AND DISASTER RELIEF POWER SUPPLY * 387 10.1.3.6 TRANSPORTATION POWER * 387 10.1.3.6.1 SOLAR AIRCRAFT ----- 387 10.1.3.6.2 SOLAR YACHT ----- 393 10.1.3.6.3 SOLAR-POWERED CAR * 393 10.1.3.7 LIGHTING POWER ----- 397 10.1.4 GRID-CONNECTED DISTRIBUTED SYSTEM * 398 10.1.4.1 INTEGRATION OF PV AND BUILDINGS * 399 10.1.4.1.1 BUILDING-ATTACHED PV (BAPV)----- 401 10.1.4.1.2 BUILDING-INTEGRATED PV * 401 10.1.4.2 PV NOISE BARRIER SYSTEM * 405 10.1.4.3 FLOATING PV SYSTEM ----- 410 10.1.4.4 AGRICULTURAL PV ----- 413 10.1.4.5 SOLAR ROAD * 415 10.1.5 CENTRALIZED GRID-CONNECTED SYSTEM * 419 10.1.6 HYBRID PV SYSTEM * 422 10.1.6.1 PV-DIESEL HYBRID POWER SYSTEM * 422 10.1.6.2 PV-WIND HYBRID POWER SYSTEM ----- 423 10.2 SPACE PV POWER STATION ----- 424 REFERENCES * 426 EXERCISES ----- 427 CHAPTER 11 BENEFIT ANALYSIS OF PV POWER GENERATION * 429 11.1 ECONOMIC BENEFITS OF PV POWER GENERATION * 429 11.1.1 THE COST OF PV POWER GENERATION * 429 11.1.1.1 CALCULATION OF LCOE * 429 11.1.1.1.1 METHODS OF CALCULATING LCOE * 429 11.1.1.1.2 CALCULATING PV LCOE ----- 431 11.1.1.2 SPECIFIC INFLUENCING FACTORS * 433 11.1.1.2.1 INPUT SECTION ----- 433 11.1.1.2.2 OUTPUT SECTION ----- 434 11.1.2 HISTORY AND PROSPECTS OF PV POWER GENERATION COST * 438 11.2 PV ENERGY PAYBACK TIME * 441 11.2.1 ENERGY PAYBACK TIME * 441 11.2.2 OVERVIEW OF WORLDWIDE SITUATIONS * 443 11.2.2.1 ALSEMA E A ----- 443 11.2.2.2 IEA-PVPS JOINT REPORT ------ 447 11.2.2.3 IEA-PVPS TASK 12 ------ 448 11.2.3 CALCULATION METHODS FOR RELEVANT PARAMETERS * 451 11.2.3.1 ANNUAL OUTPUT ENERGY FROM A PV SYSTEM * 451 CONTENTS * XXIII 11.2.3.2 THE TOTAL ENERGY INPUT IN DURING THE LIFETIME OF THE PV SYSTEM ----- 452 11.2.3.3 CALCULATE EPBT ----- 452 11.3 PV POWER GENERATION TO REDUCE CO 2 EMISSION * 455 11.3.1 GREENHOUSE GAS EMITTED BY ELECTRICITY GENERATION * 455 11.3.2 CO 2 EMISSION FACTORS * 456 11.3.2.1 FUEL CO 2 EMISSION FACTOR ----- 456 11.3.2.2 C0 2 EMISSION FACTOR FOR ELECTRICITY GENERATION * 456 11.3.3 PV POTENTIAL MITIGATION ----- 458 11.4 OTHER BENEFITS OF PV POWER GENERATION * 463 11.4.1 INCREASE JOB OPPORTUNITIES * 463 11.4.2 SAVE FUEL SOURCES * 465 11.4.3 REDUCE POWER TRANSMISSION LOSS * 465 11.4.4 ENSURE RELIABLE ENERGY SUPPLY * 466 REFERENCES * 466 EXERCISES * 467 PRACTICE ANSWERS * 469 INDEX ----- 471
adam_txt	CONTENTS PREFACE * V BRIEF INTRODUCTION * VII CHAPTER 1 INTRODUCTION * 1 1.1 THE SIGNIFICANCE OF DEVELOPING AND UTILIZING SOLAR ENERGY ----- 1 1.1.1 FOSSIL FUELS ARE FACING A CRISIS OF DEPLETION * 1 1.1.2 PROTECTING THE ECOLOGICAL ENVIRONMENT GETS ATTENTION * 5 1.1.3 LIMITATIONS OF CONVENTIONAL POWER GRIDS * 13 1.2 CHARACTERISTICS OF SOLAR ENERGY ELECTRICAL GENERATION * 15 1.2.1 ADVANTAGES OF SOLAR ENERGY ELECTRICAL GENERATION * 15 1.2.2 DISADVANTAGES OF SOLAR ENERGY ELECTRICAL GENERATION * 16 1.2.3 TYPES OF SOLAR ENERGY ELECTRICAL GENERATION * 17 1.2.3.1 CONCENTRATOR SOLAR POWER GENERATION * 17 1.2.3.1.1 SOLAR TROUGH THERMAL POWER GENERATION ----- 17 1.2.3.1.2 SOLAR TOWER THERMAL POWER GENERATION * 18 1.2.3.1.3 SOLAR DISH-TYPE THERMAL POWER GENERATION * 18 1.2.3.2 SOLAR PV ELECTRICAL GENERATION * 18 1.3 THE DEVELOPMENT OF WORLD * S PV INDUSTRY IN RECENT YEARS * 19 1.3.1 PV CELL PRODUCTION ----- 19 1.3.2 PV APPLICATION MARKET ----- 22 1.4 THE DEVELOPMENT OF CHINA * S PV INDUSTRY ----- 25 1.5 PV POWER GENERATION BY SOME COUNTRIES * ORGANIZATIONS * 26 1.5.1 JAPAN -----26 1.5.2 EUROPEAN UNION ----- 27 1.5.3 INTERNATIONAL PV TECHNOLOGY ROADMAP STEERING COMMITTEE * 31 1.5.4 USA ----- 32 1.5.5 CHINA ----- 33 1.5.6 INTERNATIONAL ENERGY AGENCY * 35 REFERENCES * 38 EXERCISES ----- 39 CHAPTER 2 SOLAR RADIATION * 41 2.1 OVERVIEW OF THE SUN ----- 41 2.2 THE RELATIVE MOVEMENT OF THE SUN AND THE EARTH * 43 2.2.1 THE OVERVIEW OF THE EARTH ----- 43 2.2.2 APPARENT SOLAR TIME * 44 2.2.3 SUNRISE AND SUNSET PATTERNS ----- 47 X * CONTENTS 2.3 CELESTIAL COORDINATE SYSTEM * 47 2.3.1 EQUATORIAL COORDINATE SYSTEM * 48 2.3.1.1 HOUR ANGLE A ------- 48 2.3.1.2 SUN DECLINATION ANGLE S -------49 2.3.2 HORIZONTAL COORDINATE SYSTEM ----- 50 2.3.2.1 ZENITH ANGLE 0 Z ---- 51 2.3.2.2 ALTITUDE ANGLE A S ------ 51 2.3.2.3 AZIMUTH ANGLE Y S ------ 51 2.3.3 THE CALCULATION OF SOLAR PARAMETERS * 51 2.3.3.1 THE CALCULATION OF ALTITUDE ANGLE * 51 2.3.3.2 THE CALCULATION OF AZIMUTH ANGLE ---- 52 2.3.3.3 THE HOUR ANGLE AT SUNRISE AND SUNSET U S ---- 53 2.3.3.4 SUNSHINE DURATION N ------ 53 23.3.5 AZIMUTH ANGLE AT SUNRISE AND SUNSET ----- 54 2.33.6 SOLAR INCIDENCE ANGLE ----- 54 2.4 ANGLE OF TRACKING SURFACE * 56 2.5 SOLAR RADIATION ----- 59 2.5.1 SOLAR RADIATION OUTSIDE THE ATMOSPHERE * 59 2.5.1.1 SOLAR CONSTANT ------ 59 2.5.1.2 SOLAR RADIATION REACHING EXTRATERRESTRIAL SURFACE * 60 2.5.13 AIR MASS ------ 63 2.5.2 SOLAR IRRADIANCE AT THE GROUND SURFACE * 65 2.5.2.1 ATMOSPHERIC TRANSPARENCY ----- 65 2.5.2.2 NORMAL SOLAR IRRADIANCE AT THE GROUND SURFACE * 66 2.5.23 DIRECT SOLAR IRRADIANCE ON HORIZONTAL SURFACE * 66 2.5.2.4 DIFFUSE SOLAR IRRADIANCE ON THE HORIZONTAL SURFACE * 67 2.5.2.5 TOTAL SOLAR IRRADIANCE ON THE HORIZONTAL SURFACE * 67 2.5.2.6 CLARITY INDEX ------67 2.5.2.7 THE RATIO OF DIFFUSE IRRADIATION TO TOTAL IRRADIATION ----- 68 2.5.2.7.1 THE RATIO OF HOURLY DIFFUSE IRRADIATION TO TOTAL IRRADIATION ----- 68 2.5.2.7.2 THE RATIO OF DAILY DIFFUSE IRRADIATION TO TOTAL IRRADIATION ----- 68 2.5.2.7.3 RATIO OF MONTHLY DIFFUSE IRRADIATION TO TOTAL IRRADIATION * 69 2.5.3 HOURLY SOLAR IRRADIATION ON TILT SURFACES ----- 70 2.53.1 HOURLY SOLAR BEAM IRRADIATION ON TILT SURFACES / T ,B * 70 2.53.2 RATIO OF HOURLY BEAM RADIATION ON TILTED TO HORIZONTAL SURFACE R B * 71 2.5.33 HOURLY DIFFUSE IRRADIATION ON TILT PLANES ----- 72 2.53.4 GROUND REFLECTED IRRADIATION ----- 72 2.53.5 TOTAL HOURLY SOLAR IRRADIATION ON TILT PLANES - SKY ISOTROPIC MODEL ----- 73 2.53.6 TOTAL HOURLY SOLAR IRRADIATION ON TILT PLANES - SKY ANISOTROPY MODEL ----- 73 CONTENTS * XI 2.5.3.6.1 HDKR MODEL ----- 73 2.5.3.6.2 PEREZ MODEL ------ 74 2.5.4 MONTHLY MEAN SOLAR IRRADIATION ON TILT PLANE * 75 2.5.4.1 SKY ISOTROPIC MODEL ----- 75 2.5.4.2 SKY ANISOTROPY MODEL --- 76 2.5.4.2.1 KLEIN AND THEILACKER * S METHOD ----- 76 2.5.4.2.2 RETSCREEN METHOD * 79 REFERENCES * 81 EXERCISES * 81 CHAPTER 3 BASIC PRINCIPLES OF CRYSTALLINE SILICON PV CELLS * 83 3.1 CLASSIFICATION OF PV CELLS -----83 3.1.1 CLASSIFICATION ACCORDING TO THE SUBSTRATE MATERIALS * 83 3.1.1.1 CRYSTALLINE SILICON PV CELLS * 83 3.1.1.2 MONOCRYSTALLINE SILICON PV CELLS * 83 3.1.1.3 POLYCRYSTALLINE SILICON PV CELLS * 84 3.1.1.4 QUASI-MONOCRYSTALLINE SILICON PV CELL * 84 3.1.1.5 SILICON-BASED THIN-FILM PV CELLS * 84 3.1.1.5.1 AMORPHOUS SILICON PV CELLS ----- 84 3.1.1.5.2 MICROCRYSTALLINE SILICON (PC-SI) PV CELLS ----- 85 3.1.1.5.3 COMPOUND PV CELLS ----- 86 3.1.1.5.3.1 MONOCRYSTALLINE COMPOUND PV CELLS * 86 3.1.1.5.3.2 POLYCRYSTALLINE COMPOUND PV CELLS * 86 3.1.2 CLASSIFICATION ACCORDING TO THE STRUCTURE OF PV CELLS * 86 3.1.2.1 HOMOJUNCTION PV CELLS ------ 86 3.1.2.2 HETEROJUNCTION PV CELLS ------- 86 3.1.2.3 SCHOTTKY JUNCTION PV CELLS ------ 86 3.1.2.4 COMPOSITE JUNCTION PV CELLS * 86 3.1.3 CLASSIFICATION ACCORDING TO THE APPLICATION OF PV CELLS * 87 3.1.3.1 SPACE PV CELLS -----87 3.1.3.2 TERRESTRIAL PV CELLS * 87 3.2 WORKING PRINCIPLE OF PV CELLS -----87 3.2.1 SEMICONDUCTOR -----87 3.2.2 BANDGAP STRUCTURE ----- 89 3.2.3 INTRINSIC SEMICONDUCTORS AND DOPED SEMICONDUCTORS * 91 3.2.4 N-TYPE AND P-TYPE SEMICONDUCTORS * 94 3.2.4.1 N-TYPE SEMICONDUCTORS * 94 3.2.4.2 P-TYPE SEMICONDUCTORS ------ 95 3.2.5 P-N JUNCTIONS ----- 96 3.2.5.1 THE MAJORITY CARRIER DIFFUSION MOTION * 96 3.2.5.2 MINORITY CARRIER DRIFT MOTION ------ 96 XII CONTENTS 3.2.6 PHOTOVOLTAIC EFFECT * 97 3.2.7 PV CELL PHOTOELECTRIC CONVERSION PRINCIPLE * 99 3.2.8 STRUCTURE OF CRYSTALLINE SILICON PV CELLS * 100 3.3 PV CELL ELECTRICAL CHARACTERISTICS * 101 3.3.1 STANDARD TEST CONDITIONS * 101 3.3.2 PV CELL EQUIVALENT CIRCUIT * 101 3.3.3 THE MAIN TECHNICAL PARAMETERS OF PV CELLS * 104 3.3.3.1 CURRENT-VOLTAGE CURVE * 104 3.3.3 2 MAXIMUM POWER POINT * 104 3.3.3 3 OPEN-CIRCUIT VOLTAGE * 107 3.3.3.4 SHORT-CIRCUIT CURRENT * 107 3.3.3 5 FILL FACTOR (CURVE FACTOR) * 107 3.3.3.6 PV CELL CONVERSION EFFICIENCY * 108 33.3.7 CURRENT TEMPERATURE COEFFICIENT * 108 3.3.3 8 VOLTAGE TEMPERATURE COEFFICIENT * 111 3.3.3 9 POWER TEMPERATURE COEFFICIENT * 111 3.3.3.10 EFFECT OF SOLAR IRRADIANCE * 113 3.3.4 FACTORS AFFECTING PV CELL CONVERSION EFFICIENCY * 114 3.3.4.1 BANDGAP * 114 33.4.2 TEMPERATURE ------ 115 3.3.43 MINORITY CARRIER LIFETIME * 116 33.4.4 LIGHT INTENSITY ----- 116 33.4.5 DOPING CONCENTRATION AND PROFILE DISTRIBUTION * 116 33.4.6 SURFACE RECOMBINATION RATE * 117 33.4.7 SERIES AND SHUNT RESISTORS * 118 33.4.8 ABSORPTION OF LIGHT ----- 119 REFERENCES * 120 EXERCISES * 120 CHAPTER 4 THIN-FILM PV CELLS * 123 4.1 INTRODUCTION * 123 4.1.1 ADVANTAGES AND DISADVANTAGES OF THIN-FILM PV CELLS * 123 4.1.1.1 LOW PRODUCTION COST ----- 123 4.1.1.2 LESS MATERIAL * 123 4.1.13 SIMPLE MANUFACTURING PROCESS * 123 4.1.1.4 LOWER ELECTRICITY CONSUMPTION DURING PRODUCTION * 124 4.1.1.5 BETTER HIGH-TEMPERATURE PERFORMANCE * 124 4.1.1.6 BETTER LOW IRRADIANCE PERFORMANCE * 124 4.1.1.7 SUITABLE FOR BIPV ----- 124 4.1.2 CATEGORIES OF THIN-FILM PV CELLS * 125 4.2 AMORPHOUS SILICON PV CELL ----- 125 CONTENTS * XIII 4.2.1 DEVELOPMENT HISTORY OF A-SI PV CELL ----- 125 4.2.2 STRUCTURE OF A-SI PV CELL ----- 126 4.2.2.1 SINGLE-JUNCTION A-SI PV CELL ----- 126 4.2.2.2 MULTIJUNCTION PV CELL ----- 128 4.2.2.2.1 A-SI/A-SI DOUBLE-JUNCTION STRUCTURE ----- 128 4.2.2.2.2 A-SI/A-SIGE DOUBLE-JUNCTION STRUCTURE ----- 128 4.2.2.23 A-SI/PC-SI DOUBLE-JUNCTION STRUCTURE [5] ----- 130 4.2.2.2.4 A-SI/A-SIGE/A-SIGE TRIPLE-JUNCTION STRUCTURE * 132 4.2.2.2.5 A-SI/A-SIGE/PC-SI TRIPLE-JUNCTION STRUCTURE ----- 132 4.2.2.2.6 A-SI/NC-SI/PC-SI TRIPLE-JUNCTION STRUCTURE ----- 134 4.2.3 FABRICATION OF A-SI THIN-FILM PV CELL ----- 134 4.2.4 COMMERCIALIZATION OF A-SI THIN-FILM PV CELL * 134 4.3 CADMIUM TELLURIDE PV CELL * 135 4.3.1 CHARACTERISTICS OF CDTE MATERIALS AND CELLS * 135 4.3.2 STRUCTURE OF CDTE PV CELL ----- 136 4.3.3 MANUFACTURING OF CDTE THIN-FILM PV CELLS ----- 138 4.3.3.1 MANUFACTURE PROCESS OF CDTE THIN-FILM PV CELL * 138 4.33.2 CDTE THIN-FILM PREPARATION PROCESS * 138 4.33.2.1 VAPOR TRANSPORT DEPOSITION ----- 138 4.33.2.2 CLOSED-SPACE SUBLIMATION ----- 140 4.3.3.23 MAGNETRON SPUTTERING ----- 140 4.3.4 COMMERCIALIZATION OF CDTE THIN-FILM PV MODULES * 141 4.4 COPPER INDIUM GALLIUM SELENIDE THIN-FILM PV CELL * 142 4.4.1 CHARACTERISTICS OF CIGS PV CELL * 143 4.4.2 STRUCTURE OF A CIGS THIN-FILM PV CELL ----- 143 4.4.3 FABRICATION OF CIGS THIN-FILM PV CELL ----- 144 4.43.1 MANUFACTURING PROCESS OF CIGS THIN-FILM PV CELL ----- 144 4.43.2 PREPARATION OF CIGS FILM * 145 4.43.2.1 MULTICOMPONENT CO-DISTILLATION ----- 146 4.43.2.2 SPUTTERING AND SELENIZATION ----- 148 4.4.4 COMMERCIALIZATION OF CIGS THIN-FILM PV CELL * 149 4.5 PEROVSKITE PV CELLS ----- 152 4.5.1 DEVELOPMENT HISTORY OF PEROVSKITE PV CELL * 152 4.5.2 FEATURES OF PEROVSKITE PV CELL ----- 154 4.5.3 COMMERCIALIZATION OF PEROVSKITE PV TECHNOLOGY AND ITS PROBLEMS ----- 155 4.6 DYE-SENSITIZED CELL * 157 4.7 ORGANIC SEMICONDUCTOR PV CELL * 160 4.8 MARKET AND DEVELOPMENT PROSPECTS OF THIN-FILM PV CELL * 160 REFERENCES * 161 EXERCISES * 162 XIV * CONTENTS CHAPTER 5 CONCENTRATOR PV AND SOLAR TRACKER * 163 5.1 CPV POWER GENERATION * 163 5.1.1 ADVANTAGES AND DISADVANTAGES OF CPV * 164 5.1.1.1 ADVANTAGES ------ 164 5.1.1.2 DISADVANTAGES ----- 165 5.1.2 CPV SYSTEM COMPONENTS * 165 5.1.2.1 CPV CELLS ----- 165 5.1.2.2 CONCENTRATOR ----- 168 5.1.2.3 SOLAR TRACKER * 173 5.1.2.4 COOLING COMPONENTS ----- 174 5.1.3 CPV SYSTEMS * 176 5.1.3.1 LOW-CONCENTRATION PV (LCPV) ----- 178 5.1.3.2 MEDIUM-CONCENTRATION PHOTOVOLTAIC (MCPV) * 181 5.1.3.3 HCPV SYSTEM ----- 183 5.1.4 CURRENT SITUATION OF CPV ------ 189 5.2 SOLAR TRACKER SYSTEM * 190 5.2.1 CLASSIFICATION OF TRACKERS * 190 5.2.1.1 BY APPLICATION ------ 190 5.2.1.2 BY NUMBER OF AXES ----- 191 5.2.1.3 BY DRIVING POWER ----- 194 5.2.1.4 BY CONTROL TYPE ------ 194 5.2.2 APPLICATION OF TRACKING SYSTEM * 195 REFERENCES * 199 EXERCISES ----- 199 CHAPTER 6 PV MODULE MANUFACTURING * 201 6.1 SILICON MATERIAL MANUFACTURING * 201 6.1.1 MG-SI MANUFACTURING ----- 202 6.1.2 HIGH-PURITY POLY C-SI MANUFACTURING ----- 202 6.1.2.1 MODIFIED SIEMENS METHOD -----203 6.1.2.1.1 SYNTHESIS OF TRICHLOROSILANE ------ 204 6.1.2.1.2 PURIFICATION OF TRICHLOROSILANE BY DISTILLATION ----- 204 6.1.2.1.3 REDUCTION OF TRICHLOROSILANE ------ 205 6.1.2.1.4 SILICON TETRACHLORIDE HYDROGENATION ----- 206 6.1.2.2 FLUIDIZED BED REACTOR METHOD ------ 207 6.1.2.3 SILANE THERMAL DECOMPOSITION ------ 208 6.2 C-SI GROWTH TECHNOLOGY ----- 208 6.2.1 MONO C-SI GROWTH TECHNOLOGY ------ 210 6.2.1.1 CZOCHRALSKI METHOD ----- 210 6.2.1.1.1 MELTING ----- 211 CONTENTS * XV 6.2.1.1.2 SEEDING ------ 211 6.2.1.13 LEADING ------ 212 6.2.1.1.4 SHOULDERING ----- 212 6.2.1.1.5 EQUALING DIAMETER * 212 6.2.1.1.6 ENDING ------ 212 6.2.1.1.7 COOLING ------ 212 6.2.1.2 ZONE MELTING METHOD * 212 6.2.13 MAGNETIC FIELD APPLIED CZOCHRALSKI METHOD * 213 6.2.2 CASTING POLYCRYSTALLINE METHOD * 214 6.2.2.1 BRIDGEMAN METHOD * 215 6.2.2.2 HEM-HEAT EXCHANGE METHOD ------ 215 6.2.23 ELECTROMAGNETIC CASTING METHOD ---- 216 6.2.2.4 CASTING TECHNOLOGY * 217 6.23 CASTING MONO C-SI METHOD * 218 6.23.1 SEEDLESS CRYSTAL INGOT * 218 6.23.2 SEED CRYSTAL INGOT ----- 219 6.3 C-SI PROCESSING TECHNOLOGY * 219 6.3.1 C-SI SQUARE CUT * 220 6.3.2 C-SI WAFER ----- 220 6.4 CRYSTAL SILICON PV CELL MANUFACTURING TECHNOLOGY * 221 6.4.1 SURFACE TEXTURING ----- 222 6.4.2 DIFFUSION JUNCTION PROCESS ----- 226 6.4.3 EDGE ISOLATION * 228 6.4.4 REMOVE PHOSPHOSILICATE GLASS ----- 229 6.4.5 DEPOSITION ANTIREFLECTION FILM ----- 229 6.4.6 SCREEN PRINTING ELECTRODE * 231 6.4.7 HIGH TEMPERATURE SINTERING ----- 232 6.4.8 PV CELL I * V CHARACTERISTICS TEST * 233 6.5 PV MODULE PACKAGING ------ 235 6.5.1 PV MODULE PACKAGING MATERIALS * 237 6.5.1.1 PV GLASS ------ 237 6.5.1.2 ENCAPSULATION MATERIAL ----- 238 6.5.13 BACKSHEET MATERIAL * 239 6.5.1.4 FRAME ----- 239 6.5.1.5 JUNCTION BOX ----- 239 6.5.1.6 SOLDER RIBBON * 239 6.5.1.7 OTHER MATERIALS ------ 240 6.5.2 PV MODULE PACKAGE PROCESS ----- 240 6.5.2.1 CELL SORTING ------ 240 63.2.2 STRING SOLDERING ----- 241 6.5.23 STACKS ----- 241 63.2.4 LAMINATION ------ 241 XVI * CONTENTS 6.5.2.S 6.S.2.6 6.S.2.7 6.5.2.S TRIMMING ----- 242 INSTALL FRAME * 242 INSTALL JUNCTION BOX ----- 243 TESTING -----243 REFERENCES * 243 EXERCISE ----- 244 CHAPTER 7 COMPONENTS OF A PV SYSTEM * 245 7.1 PV ARRAY ----- 245 7.2 DIODE ----- 246 7.2.1 BLOCKING (ANTI-BACKFLOW) DIODES * 246 7.2.2 BYPASS DIODE ----- 246 7.3 ENERGY STORAGE EQUIPMENT * 247 7.3.1 MAINSTREAM ENERGY STORAGE TECHNOLOGY * 247 7.3.1.1 MECHANICAL ENERGY STORAGE * 248 7.3.1.1.1 PUMPED ENERGY STORAGE * 248 7.3.1.1.2 FLYWHEEL ENERGY STORAGE * 248 7.3.1.1.3 COMPRESSED AIR ENERGY STORAGE * 250 7.3.1.2 ELECTROCHEMICAL ENERGY STORAGE * 250 7.3.1.2.1 LEAD-ACID BATTERY * 250 7.3.1.2.2 SODIUM-SULFUR BATTERY ----- 251 7.3.1.2.3 FLOW BATTERY * 252 7.3.1.2.4 SODIUM/NICKEL CHLORIDE BATTERY * 252 7.3.1.2.5 LITHIUM-ION BATTERY * 252 7.3.1.3 ELECTROMAGNETIC ENERGY STORAGE * 253 7.3.1.3.1 SUPERCONDUCTING MAGNETIC ENERGY STORAGE * 253 7.3.1.3.2 SUPERCAPACITOR ENERGY STORAGE * 254 7.3.1.3.3 HIGH-ENERGY CAPACITOR ENERGY STORAGE * 254 7.3.2 BATTERIES FOR PV SYSTEMS * 256 7.3.2.1 LEAD-ACID BATTERY * 256 7.3.2.1.1 BASIC STRUCTURE ----- 257 7.3.2.1.2 MODEL CODE ----- 258 7.3.2.2 MAINTENANCE-FREE LEAD-ACID BATTERY * 259 73.13 VALVE-REGULATED SEALED LEAD-ACID BATTERY * 259 7.3.2.4 LEAD-ACID BATTERY PERFORMANCE PARAMETERS * 260 7.3.2.4.1 BATTERY VOLTAGE * 260 7.3.2.4.2 BATTERY CAPACITY ----- 261 7.3.2.4.2.1 RELATIONSHIP BETWEEN BATTERY CAPACITY AND DISCHARGE RATE * 261 73.2.4.2.2 THE RELATIONSHIP BETWEEN BATTERY CAPACITY AND TEMPERATURE * 262 CONTENTS * XVII 7.3.2.4.3 BATTERY EFFICIENCY ----- 262 7.3.2.4.4 BATTERY SELF-DISCHARGE ------ 263 7.3.2.4.5 BATTERY DISCHARGE DEPTH AND CHARGE STATE ----- 264 73.2.4.6 BATTERY LIFE ----- 265 7.4 CONTROLLER ----- 266 7.4.1 TYPES OF CONTROLLERS ------ 266 7.4.1.1 CONTROLLER CLASSIFICATION ------ 266 7.4.1.1.1 PULSE-WIDTH MODULATION (PWM) CONTROLLER IN PARALLEL CONNECTION ----- 266 7.4.1.1.2 PWM CONTROLLER IN SERIES CONNECTION ----- 267 7.4.1.1.3 MAXIMUM POWER POINT TRACKING CONTROLLER * 267 7.4.1.2 COMPARISON OF THREE CONTROLLERS * 268 7.4.1.2.1 PWM CONTROLLER ----- 268 7.4.1.2.2 MAXIMUM POWER TRACKING CONTROLLER ----- 268 7.4.2 THE MAIN FUNCTIONS OF THE CONTROLLER ----- 268 7.4.2.1 BATTERY CHARGE AND DISCHARGE MANAGEMENT * 268 7.4.2.2 EQUIPMENT PROTECTION FUNCTIONS * 269 7.4.2.2.1 LOAD SHORT-CIRCUIT/OVERLOAD PROTECTION ----- 269 7.4.2.2.2 INTERNAL SHORT-CIRCUIT PROTECTION ----- 269 7.4.2.23 REVERSE DISCHARGE PROTECTION ----- 269 7.4.2.2.4 REVERSE POLARITY PROTECTION ----- 269 7.4.2.2.5 LIGHTNING PROTECTION ----- 269 7.4.23 PV SYSTEM STATUS DISPLAY ----- 269 7.4.2.4 PV SYSTEM DATA AND INFORMATION STORAGE * 270 7.4.2.5 PV SYSTEM FAULT HANDLING AND ALARM * 270 7.4.2.6 PV SYSTEM REMOTE MONITORING AND CONTROL * 270 7.4.3 MAIN TECHNICAL SPECIFICATIONS OF CONTROLLERS * 270 7.43.1 QUIESCENT CURRENT ----- 270 7.43.2 LOOP VOLTAGE DROP ----- 270 7.4.33 VIBRATION RESISTANCE * 271 7.43.4 HIGH VOLTAGE RESISTANCE ----- 271 7.43.5 HIGH CURRENT RESISTANCE ----- 271 7.5 GRID-CONNECT PV INVERTERS ----- 271 7.5.1 TYPE OF GRID-CONNECT PV INVERTERS ----- 271 7.5.2 MAIN REQUIREMENTS FOR GRID-CONNECT PV INVERTERS * 273 7.5.3 HOW GRID-CONNECT PV INVERTER WORKS? ----- 274 7.5.4 MAIN FUNCTIONS OF GRID-CONNECT PV INVERTERS ----- 276 7.5.4.1 MPPT CONTROL ----- 276 7.5.4.2 GRID CONNECTION ----- 277 7.5.5 SYSTEM PROTECTION FUNCTION ----- 279 7.5.5.1 PID PROTECTION ----- 280 7.5.5.2 ANTI-ISLANDING FUNCTION ----- 281 XVIII * CONTENTS 7.5.6 OTHER ASPECTS * 281 REFERENCES * 282 EXERCISES * 283 CHAPTER 8 PHOTOVOLTAIC POWER GENERATION SYSTEM DESIGN * 285 8.1 MAIN TARGET OF PV SYSTEM DESIGN * 285 8.1.1 DEFINITION AND CLASSIFICATION OF PV SYSTEMS * 285 8.1.2 TARGET AND REQUIREMENT OF PV SYSTEM DESIGN * 286 8.2 DESIGN OF GRID-CONNECTED PV SYSTEM * 286 8.2.1 THE CAPACITY DESIGN OF GRID-CONNECTED PV SYSTEM * 286 8.2.1.1 FACTORS THAT DETERMINE THE ELECTRIC ENERGY PRODUCTION * 286 8.2.1.1.1 INSTALLED CAPACITY * 286 8.2.1.1.2 PERFORMANCE RATIO (PR) ----- 287 8.2.1.1.3 SOLAR IRRADIATION * 289 8.2.1.2 ESTIMATE ENERGY PRODUCTION FOR GRID-CONNECTED PV SYSTEM * 290 8.2.1.2.1 CONFIRM THE SITE PARAMETERS * 290 8.2.1.2.2 OBTAINED THE OPTIMAL TILT ANGEL ----- 290 8.2.1.2.3 SET THE PR ----- 292 8.2.1.2.4 CALCULATION EQUATION ----- 293 8.2.1.2.5 OBTAIN THE ENERGY PRODUCTION OF GRID-CONNECTED PV SYSTEM * 293 8.2.1.3 INTRODUCTION OF COMMON DESIGN SOFTWARE * 295 8.2.2 GRID-CONNECTED PV POWER STATION AND GRID-CONNECTION * 299 8.2.2.1 REQUIREMENT OF GRID CONNECTION FOR PV POWER STATION * 299 8.2.2.1.1 HARMONIC AND WAVEFORM DISTORTION * 299 8.2.2.1.2 VOLTAGE DEVIATION ----- 299 8.2.2.1.3 VOLTAGE FLUCTUATION AND FLICKER ----- 300 8.2.2.1.4 DEGREE OF VOLTAGE UNBALANCE * 301 8.2.2.1.5 DC COMPONENT ----- 301 8.2.2.1.6 POWER FACTOR * 301 8.2.2.2 GRID-CONNECTED TYPE OF PV SYSTEM * 302 8.2.2.2.1 SINGLE-BRANCH GRID-CONNECTED TYPE * 302 8.2.2.2.2 MULTIBRANCH GRID-CONNECTED TYPE ----- 302 8.2.2.2.3 PARALLEL-CONNECTED GRID-CONNECTED TYPE * 303 8.2.2.3 GRID CONNECTION METHOD OF PV SYSTEM * 303 8.2.2.3.1 SMALL-SCALE GRID-CONNECTED PV SYSTEM * 303 8.2.2.3.1.1 * NET METERING * METHOD ----- 304 8.2.2.3.1.2 FEED-IN TARIFF METHOD ----- 305 8.2.2.3.2 LARGE- AND MEDIUM-SIZED PV POWER STATIONS * 305 8.2.3 BASIC FLOWCHART OF GRID-CONNECTED PV SYSTEM DESIGN * 308 8.2.3.1 COLLECTING PRIMARY DATA * 308 5.2.3.2 SITE SELECTION AND INVESTIGATION * 308 CONTENTS * XIX 8.2.33 GENERAL LAYOUT ARRANGEMENT * 308 8.23.4 DETERMINE EQUIPMENT CONFIGURATION AND MODEL * 309 8.23.5 SELECT THE APPROPRIATE GRID INVERTER ----- 309 8.23.6 DETERMINE THE GRID-CONNECTION METHOD OF PV SYSTEM * 311 8.23.7 DETERMINE THE NUMBER OF PV MODULES CONNECTED IN SERIES AND PARALLEL * 311 8.23.8 CALCULATE THE OPTIMAL PV ARRAY TILT ANGLE * 311 8.23.9 CONDUCT OVERALL DESIGN OF THE PROJECT SITE TO DETERMINE THE LAYOUT OF PV ARRAYS * 312 8.2.3.10 ANALYZE THE INFLUENCE OF DISTRIBUTED ACCESS CAPACITY ON DISTRIBUTION NETWORK * 312 8.2.3.11 ASSESS COSTS AND BENEFITS * 312 8.3 THE DESIGN OF OFF-GRID PV SYSTEM * 312 8.3.1 REQUIREMENTS OF OFF-GRID PV SYSTEM DESIGN * 313 8.3.2 TECHNICAL CONDITIONS ----- 313 83.2.1 LOAD PROPERTIES * 313 83.2.2 THE CONCEPT OF SEVERAL KINDS OF SUNSHINE * 314 83.2.2.1 POSSIBLE SUNSHINE DURATION * 314 83.2.2.2 SUNSHINE DURATION ----- 314 8.3.2.23 PERCENTAGE OF SUNSHINE * 315 83.2.2.4 TWILIGHT DURATION ----- 315 83.2.2.5 PEAK SUN HOUR ----- 315 8.3.23 TEMPERATURE EFFECT * 316 83.2.4 BATTERY AUTONOMY DAYS * 317 8.3.3 SELECTION OF PV ARRAY TILT ANGLE * 317 8.33.1 PV ARRAY SHOULD BE PLACED AS TILT IF POSSIBLE * 317 8.33.2 DETERMINE THE OPTIMAL TILT ANGLE * 318 8.3.4 DESIGN OF BALANCED LOAD PV SYSTEMS * 319 83.4.1 DETERMINE THE LOAD ELECTRICITY CONSUMPTION * 319 83.4.2 CALCULATE SOLAR RADIATION ON THE PV ARRAY * 319 8.3.43 CALCULATE MONTHLY SURPLUS OR DEFICIT OF POWER GENERATION ----- 320 83.4.4 DETERMINE THE CUMULATIVE DEFICIT AMOUNT J I-ZJQ,-I ----- 321 83.4.5 DETERMINE OUTPUT CURRENT OF THE PV ARRAY ----- 321 83.4.6 CALCULATE THE OPTIMAL TILT ANGLE * 322 83.4.7 OBTAIN CAPACITY OF BATTERY AND PV ARRAY * 322 83.4.8 DECIDE THE BEST CONFIGURATION ----- 322 83.4.9 CASE ANALYSIS ----- 324 8.3.4.10 OFF-GRID PV SYSTEM CAPACITY DISCUSSION ------ 327 8.3.5 DESIGN PV SYSTEMS WITH SEASONAL LOAD * 328 8.3.6 PV SYSTEM DESIGN FOR LOAD WITH SPECIAL REQUIREMENTS * 329 8.4 PV POWER SYSTEM HARDWARE DESIGN * 330 8.4.1 SITE LAYOUT ----- 330 XX * CONTENTS 8.4.1.1 LENGTH OF OBSTRUCTER SHADOWS * 331 8.4.1.2 MINIMUM DISTANCE BETWEEN TWO ROWS ----- 333 8.4.1.3 LAYOUT OF PV ARRAYS ----- 334 8.4.1.3.1 THE MINIMUM HEIGHT BETWEEN THE GROUND AND THE LOWEST POINT OF PV MODULE IS 0.3 M ----- 334 8.4.1.3.2 CALCULATE THE DISTANCE BETWEEN TWO ROWS * 334 8.4.1.3.3 CALCULATE THE NUMBER OF PV ROWS * 335 8.4.1.3.4 CALCULATE THE NUMBER OF PV MODULES IN EACH ROW * 335 8.4.1.3.5 CALCULATE THE TOTAL POWER OF INSTALLED MODULES * 335 8.4.1.4 DESIGN OF ARRAY RACKS * 336 8.4.2 DISTRIBUTION ROOM AND ELECTRICAL DESIGN * 336 8.4.3 SELECTION OF AUXILIARY EQUIPMENT * 337 8.4.3.1 STORAGE BATTERY ----- 337 5.4.3.2 CONTROLLER ----- 337 8.43.3 INVERTER ----- 337 8.43.4 LIGHTNING PROTECTION DEVICE ----- 338 8.43.5 FIRE SAFETY ----- 338 8.5 OTHER DESIGNS ----- 338 REFERENCES * 339 EXERCISES * 340 CHAPTER 9 PV PROJECTS CONSTRUCTION, ACCEPTANCE, AND MAINTENANCE * 343 9.1 INSTALLATION OF PV POWER GENERATION SYSTEM * 343 9.1.1 PREPARATION BEFORE INSTALLATION * 344 9.1.2 INSTALLATION OF PV ARRAYS * 344 9.1.2.1 PREPARATION BEFORE PV ARRAY INSTALLATION * 344 9.1.2.2 SITE INSTALLATION ----- 346 9.1.23 SAFETY PRECAUTIONS [6] ------- 349 9.1.3 INSTALLATION OF ELECTRICAL EQUIPMENT * 349 9.13.1 TECHNICAL REQUIREMENT * 349 9.13.2 INSTALLATION LOCATION * 351 9.1.33 WIRING CONNECTION ------ 351 9.13.4 WIRING SEQUENCE ----- 352 9.1.4 INSTALLATION OF STORAGE BATTERY PACKS * 353 9.1.4.1 INSTALLATION PRECAUTIONS * 353 9.1.4.2 SET-UP FOR BATTERY ROOM * 353 9.1.43 CONNECTION WIRE ----- 354 9.1.4.4 PREPARATION OF ELECTROLYTE * 354 9.2 COMMISSIONING OF PV SYSTEMS ----- 354 9.2.1 PREPARATION BEFORE COMMISSIONING * 354 9.2.2 COMMISSIONING OF PV ARRAY ----- 355 CONTENTS * XXI 9.2.2.1 GENERAL REVIEW * 355 9.2.2.2 INSPECTION AND MEASUREMENT FOR PV ARRAYS * 355 9.2.2.3 PV STRING TEST ------ 356 9.2.3 COMMISSIONING OF CONTROLLER * 357 9.2.3.1 DOCUMENTATION CHECK * 357 9 2.3.2 PERFORMANCE TESTING ------ 357 9 2.3.3 CONNECTING WIRES ------ 358 9.2.4 COMMISSIONING OF OFF-GRID SYSTEM INVERTER * 358 9.2.5 COMMISSIONING OF GRID-CONNECTED INVERTER * 359 9.2.5.1 PERFORMANCE TESTING ----- 359 9 2.5.2 CONNECTING WIRES ------ 365 9.3 ACCEPTANCE OF PV PROJECT * 365 9.3.1 ACCEPTANCE OF SUBENGINEERING PROJECTS * 366 9.3.1.1 CIVIL ENGINEERING ----- 366 9.3.1.2 INSTALLATION ENGINEERING * 366 9.3.1.3 OTHER SUBENGINEERING PROJECTS ----- 367 9.3.2 ACCEPTANCE OF PROJECT START-UP ------ 367 9.3.3 ACCEPTANCE OF PROJECT COMMISSIONING AND TRANSFER * 368 9.3.4 ACCEPTANCE OF PROJECT COMPLETION ----- 368 9.4 MAINTENANCE AND MANAGEMENT FOR PV SYSTEMS * 368 9.4.1 ROUTINE MAINTENANCE * 369 9.4.1.1 ARRAY INSPECTION ----- 369 9.4.1.2 EQUIPMENT INSPECTION ----- 369 9.4.1.3 BATTERY MAINTENANCE * 369 9.4.2 PERIODICAL INSPECTION * 369 REFERENCES * 371 EXERCISES ----- 371 CHAPTER 10 APPLICATIONS OF PHOTOVOLTAIC SYSTEMS * 373 10.1 CLASSIFICATION OF GROUND PV SYSTEMS * 373 10.1.1 PICO PV SYSTEM ----- 373 10.1.2 OFF-GRID RESIDENTIAL SYSTEM ----- 376 10.1.3 OFF-GRID NONRESIDENTIAL SYSTEM ----- 378 10.1.3.1 PV PUMP ----- 378 10.1.3.1.1 PV PUMP MAIN COMPONENTS * 379 10.1.3.1.2 PV WATER PUMP DESIGN ----- 379 10.1.3.2 SOLAR FAN HAT * 381 10.1.3.3 COMMUNICATION PV POWER ----- 382 10.1.3.4 OFF-GRID POWER SOURCE ----- 385 10.1.3.4.1 SOLAR BEACON LIGHT * 385 10.1.3.4.2 CATHODIC PROTECTION POWER SUPPLY FOR OIL AND GAS PIPELINES * 386 XXII CONTENTS 10.1.3.5 EMERGENCY MANAGEMENT AND DISASTER RELIEF POWER SUPPLY * 387 10.1.3.6 TRANSPORTATION POWER * 387 10.1.3.6.1 SOLAR AIRCRAFT ----- 387 10.1.3.6.2 SOLAR YACHT ----- 393 10.1.3.6.3 SOLAR-POWERED CAR * 393 10.1.3.7 LIGHTING POWER ----- 397 10.1.4 GRID-CONNECTED DISTRIBUTED SYSTEM * 398 10.1.4.1 INTEGRATION OF PV AND BUILDINGS * 399 10.1.4.1.1 BUILDING-ATTACHED PV (BAPV)----- 401 10.1.4.1.2 BUILDING-INTEGRATED PV * 401 10.1.4.2 PV NOISE BARRIER SYSTEM * 405 10.1.4.3 FLOATING PV SYSTEM ----- 410 10.1.4.4 AGRICULTURAL PV ----- 413 10.1.4.5 SOLAR ROAD * 415 10.1.5 CENTRALIZED GRID-CONNECTED SYSTEM * 419 10.1.6 HYBRID PV SYSTEM * 422 10.1.6.1 PV-DIESEL HYBRID POWER SYSTEM * 422 10.1.6.2 PV-WIND HYBRID POWER SYSTEM ----- 423 10.2 SPACE PV POWER STATION ----- 424 REFERENCES * 426 EXERCISES ----- 427 CHAPTER 11 BENEFIT ANALYSIS OF PV POWER GENERATION * 429 11.1 ECONOMIC BENEFITS OF PV POWER GENERATION * 429 11.1.1 THE COST OF PV POWER GENERATION * 429 11.1.1.1 CALCULATION OF LCOE * 429 11.1.1.1.1 METHODS OF CALCULATING LCOE * 429 11.1.1.1.2 CALCULATING PV LCOE ----- 431 11.1.1.2 SPECIFIC INFLUENCING FACTORS * 433 11.1.1.2.1 INPUT SECTION ----- 433 11.1.1.2.2 OUTPUT SECTION ----- 434 11.1.2 HISTORY AND PROSPECTS OF PV POWER GENERATION COST * 438 11.2 PV ENERGY PAYBACK TIME * 441 11.2.1 ENERGY PAYBACK TIME * 441 11.2.2 OVERVIEW OF WORLDWIDE SITUATIONS * 443 11.2.2.1 ALSEMA E A ----- 443 11.2.2.2 IEA-PVPS JOINT REPORT ------ 447 11.2.2.3 IEA-PVPS TASK 12 ------ 448 11.2.3 CALCULATION METHODS FOR RELEVANT PARAMETERS * 451 11.2.3.1 ANNUAL OUTPUT ENERGY FROM A PV SYSTEM * 451 CONTENTS * XXIII 11.2.3.2 THE TOTAL ENERGY INPUT IN DURING THE LIFETIME OF THE PV SYSTEM ----- 452 11.2.3.3 CALCULATE EPBT ----- 452 11.3 PV POWER GENERATION TO REDUCE CO 2 EMISSION * 455 11.3.1 GREENHOUSE GAS EMITTED BY ELECTRICITY GENERATION * 455 11.3.2 CO 2 EMISSION FACTORS * 456 11.3.2.1 FUEL CO 2 EMISSION FACTOR ----- 456 11.3.2.2 C0 2 EMISSION FACTOR FOR ELECTRICITY GENERATION * 456 11.3.3 PV POTENTIAL MITIGATION ----- 458 11.4 OTHER BENEFITS OF PV POWER GENERATION * 463 11.4.1 INCREASE JOB OPPORTUNITIES * 463 11.4.2 SAVE FUEL SOURCES * 465 11.4.3 REDUCE POWER TRANSMISSION LOSS * 465 11.4.4 ENSURE RELIABLE ENERGY SUPPLY * 466 REFERENCES * 466 EXERCISES * 467 PRACTICE ANSWERS * 469 INDEX ----- 471
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author	Yang, Jinhuan Yuan, Xiao Ji, Liang
author_GND	(DE-588)1223003329
author_facet	Yang, Jinhuan Yuan, Xiao Ji, Liang
author_role	aut aut aut
author_sort	Yang, Jinhuan
author_variant	j y jy x y xy l j lj
building	Verbundindex
bvnumber	BV046900049
classification_rvk	ZP 3730 ZN 5160 ZN 8190 ZP 3731
classification_tum	ERG 940
ctrlnum	(OCoLC)1197709530 (DE-599)DNB1203448465
discipline	Energietechnik, Energiewirtschaft Energietechnik Elektrotechnik / Elektronik / Nachrichtentechnik
discipline_str_mv	Energietechnik, Energiewirtschaft Energietechnik Elektrotechnik / Elektronik / Nachrichtentechnik
format	Book
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id	DE-604.BV046900049
illustrated	Illustrated
index_date	2024-07-03T15:24:03Z
indexdate	2024-07-10T08:56:57Z
institution	BVB
institution_GND	(DE-588)10095502-2
isbn	9783110531381 3110531380
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032309721
oclc_num	1197709530
open_access_boolean
owner	DE-573 DE-83 DE-1029 DE-703 DE-11 DE-1028
owner_facet	DE-573 DE-83 DE-1029 DE-703 DE-11 DE-1028
physical	XXIII, 477 Seiten Illustrationen, Diagramme
publishDate	2020
publishDateSearch	2020
publishDateSort	2020
publisher	De Gruyter
record_format	marc
series2	De Gruyter graduate
spelling	Yang, Jinhuan Verfasser (DE-588)1223003329 aut Solar photovoltaic power generation Jinhuan Yang, Xiao Yuan, Liang Ji Berlin ; Boston De Gruyter [2020] © 2020 XXIII, 477 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier De Gruyter graduate Fotovoltaik (DE-588)4121476-6 gnd rswk-swf Solarzelle (DE-588)4181740-0 gnd rswk-swf TB: Textbook Fotovoltaik (DE-588)4121476-6 s Solarzelle (DE-588)4181740-0 s DE-604 Yuan, Xiao Verfasser aut Ji, Liang Verfasser aut Walter de Gruyter GmbH & Co. KG (DE-588)10095502-2 pbl Erscheint auch als Online-Ausgabe 978-3-11-052542-7 Erscheint auch als Online-Ausgabe 978-3-11-052483-3 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032309721&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Yang, Jinhuan Yuan, Xiao Ji, Liang Solar photovoltaic power generation Fotovoltaik (DE-588)4121476-6 gnd Solarzelle (DE-588)4181740-0 gnd
subject_GND	(DE-588)4121476-6 (DE-588)4181740-0
title	Solar photovoltaic power generation
title_auth	Solar photovoltaic power generation
title_exact_search	Solar photovoltaic power generation
title_exact_search_txtP	Solar photovoltaic power generation
title_full	Solar photovoltaic power generation Jinhuan Yang, Xiao Yuan, Liang Ji
title_fullStr	Solar photovoltaic power generation Jinhuan Yang, Xiao Yuan, Liang Ji
title_full_unstemmed	Solar photovoltaic power generation Jinhuan Yang, Xiao Yuan, Liang Ji
title_short	Solar photovoltaic power generation
title_sort	solar photovoltaic power generation
topic	Fotovoltaik (DE-588)4121476-6 gnd Solarzelle (DE-588)4181740-0 gnd
topic_facet	Fotovoltaik Solarzelle
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032309721&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT yangjinhuan solarphotovoltaicpowergeneration AT yuanxiao solarphotovoltaicpowergeneration AT jiliang solarphotovoltaicpowergeneration AT walterdegruytergmbhcokg solarphotovoltaicpowergeneration

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