Session 06 PV Systems – Part 2 Solar Modules September 8, 2015.

Slides:



Advertisements
Similar presentations
The NEED Project: 30 Years of Energy Education1 Solar Energy.
Advertisements

CBA FINAL PROJECT 2002 Gyorgyi Cicas ; Jose L. Aguirre; Po-Hsin Lin CBA OF OPERATING PHOTOVOLTAIC SYSTEM IN PITTSBURGH.
InP Solar Directory Total of 1056 different companies All entries received from: ings/UnitedStates.htmhttp://
SOLAR POWER. Potential for solar A land mass of about 100x100 miles in the Southwest U.S.-less than 0.5% of the U.S. mainland land mass, or about 25%
Cells, Modules, and Arrays
Lesson 25: Solar Panels and Economics of Solar Power
Solar Energy. Radiant Energy Solar Radiation Average Daily Solar Insolation Per Month.
Photovoltaic Solar Cells and Solar Energy Systems for Home Usages Mohammad Anisuzzaman.
Photovoltaic - Solar Cell
Electrical Engineering. A circuit is a combination of different components that allow electricity to flow through them. Each component serves its own.
Internal Resistance of a Source Definition: The resistance within a battery, or other voltage source, that causes a drop in the source voltage when there.
SOLAR CELL PRESENTED BY ANJALI PATRA ANKITA TRIPATHY BRANCH-EEE.
Solar Power EDSGN 100 Sec. 13 Design Team 1 Kyle Feaster Alex Shivetts Kait Levin.
Solar Lightings Solar Module. Charge Controller. Battery. Inverter. Loads Accessories.
Macro-Scale Photovoltaic Technology An Introduction.
Manufacturing Engineering Solar Panel Energy System Copyright © Texas Education Agency, All rights reserved. 1.
USAFA Department of Astronautics I n t e g r i t y - S e r v i c e - E x c e l l e n c e Astro 331 Electrical Power Subsystem—Intro Lesson 19 Spring 2005.
Solar Photovoltaic
Is a method of generating electrical power by converting solar radiation into direct current electricity using semiconductors that exhibit the photovoltaic.
PV System Components Advanced Engineering The Technology Landstown High School.
Photovoltaic (fo-to-vol-ta-ik) systems are solar systems that produce electricity directly from sunlight. The term "photo" comes from the Greek "phos,"
Photovoltaics is a relatively very complicated subject. Understanding solar cell and solar modules function needs relatively broad knowledge from the.
Renewable Energy DDP. Solar Energy The Sun produces radiant energy by consuming hydrogen in nuclear fusion reactions. Solar energy is transmitted to the.
Renewable Power Generation Solar Photovoltaic (PV) Wind Energy Hydropower Solar Thermal Electric Geothermal.
Michael Ikerionwu 4 th year Electronic Engineering.
SOLAR PV The conversion of solar energy directly into electricity in a solid state device.
Dc bus for photovoltaic power supplying computing loads 4 th year Electronic Engineering Michael ikerionwu.
Balance of Systems (BOS)
Session 12 Grid Tied PV Systems – Part 2 Design Considerations October 06, 2015.
Session 17 Grid Tied PV Systems – Part 6 Three-Phase Systems Siting and Mechanical Considerations October 29, 2015.
Solar Energy. Solar panels Instead of using fossil fuels, solar power technologies use photovoltaic (PV) panels to convert sunlight directly into electricity.
Stand-Alone PV Systems, Part 2
Layout of a silicon solar cell. Components of a PV system Module – consists of many cells wired together Support structure Inverter – converts DC module.
1. INTRODUCTION 2. CONCENTRATED SOLAR POWER 3. PARABOLIC TROUGH 4. SOLAR PANELS 5. PHOTOVOLTAICS 6. PV SYSTEM 7. ADVANTAGES & DISADVANTAGES 8. STORAGE.
Team ATeam B Final round (1 point for each correct answer) Question 1Question 2Question 3Question 4Question 5 Question 6Question 7Question 8Question 9Question.
Noor Shazliana Aizee bt Abidin
Introduction to Solar Photovoltaic (PV) Systems – Part 2
Grid Tied PV Systems – Part 5
Battery Backup PV Systems Design Considerations
Sustainability Solar Power Sustainability Solar power.
Recent Advances in Solar Power Technology. Total Installed Electricity Capacity worldwide is about GW Worldwide solar PV installation.
Life of Solar Created in 1988 as a resource for renewable energy programs and information, training, technical assistance and.
An Introduction to Solar Energy. World solar photovoltaic (PV) installations increased 19% in one year, reaching a record high of 1,744 megawatts (MW)
Examples of photovoltaic cells Photovoltaic cells are cells made of semiconductor material like silicon. They generate electricity from radiation the.
NANO SCIENCE IN SOLAR ENERGY
What is PV System? Photovoltaic (PV) system is an electrical system consisting of array of one or more PV modules, conductors, electrical components,
SEC598F16 Photovoltaic Systems Engineering Session 12 PV System Components Inverters Balance of Systems (BOS) October 04, 2016.
Photovoltaic and Battery Primer
Photovoltaic and Battery Primer
Photovoltaic Systems Engineering
Natural Sciences and Technology Grade 6
Photovoltaic Systems Engineering Electronic Control Devices (ECDs)
Photovoltaic Systems Engineering
Photovoltaic Systems Engineering Session 15 Stand-Alone PV Systems
Photovoltaic Systems Engineering
Photovoltaic Systems Engineering Session 21
Date of download: 11/13/2017 Copyright © ASME. All rights reserved.
Photovoltaic Systems Engineering
V.SRINIVAS (11UE1A0237) B.SHIVA (11UE1A0232)
Photovoltaic (PV) Systems
Photovoltaic Systems Engineering Session 10
Photovoltaic Systems Engineering Session 16 Solar+Storage Systems
Photovoltaic Systems Engineering
Photovoltaic Systems Engineering
Photovoltaic Systems Engineering
Photovoltaic Systems Engineering
Photovoltaic Systems Engineering Session 07 Photovoltaic Systems:
Solar Energy Commercialization Utility Scale Solar Development
Presentation transcript:

Session 06 PV Systems – Part 2 Solar Modules September 8, 2015

Session 06 Components PV System Components o Solar cells – material considerations o Solar modules – operation and manufacture 2

Learning Outcomes Review of types of solar cells Review of construction and manufacturing of solar modules Introduction to module science and technology Consideration of module performance, reliability, lifetime, and decommissioning 3

PV Systems: Definition A photovoltaic system (or PV system) is an engineered system that carries out these operations: o Absorption of incident solar radiation o Conversion of the absorbed solar energy to DC electrical energy o Controlled transfer of the DC electrical energy to a storage device (such as an array of batteries) OR o Controlled inversion of the DC electrical energy to AC electrical energy o Controlled transfer of the electrical energy to electrical loads or to the electrical grid

PV Systems: Standard solar cell structure Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems

PV Systems: Standard solar cell structure Maximum efficiency, with common PV materials

PV Systems: Solar Cell Types Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems

PV Systems: Solar cell fabrication Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems

PV Systems: Solar cell fabrication Trina – Polycrystalline Silicon (poly-Si) 9

PV Systems: Solar cell fabrication Suntech - Cell and Module Manufacturing: 10

PV Systems: Amorphous-Si solar cell structure Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems

PV Systems: CdTe solar cell structure Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems CdS

PV Systems: CIGS solar cell structure Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems CIGS

PV Systems: CIGS solar cell structure Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems

PV Systems: Multi-Junction solar cell structure Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems

PV Systems: Multi-Junction solar cell concept Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems

PV Systems: Cell efficiencies Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems

PV Systems: poly-Si vs a-Si Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems

PV Systems: Cell material and structures Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems, Chapter 2 (On reserve, Noble Library)

PV Systems: Solar cell I vs V There is a relation between the current and the voltage of a solar cell: Increasing light

PV Systems: Need for the solar module To increase the electrical power, solar cells are combined together (physically and electrically) into solar modules 6.5A, 0.6V, 4W6.5A, 45V, 300W

PV Systems: Solar module I vs V The relation between the current and the voltage of a solar module resembles that of the single solar cell: Increasing light 60 solar cell module

PV Systems: Solar module construction Solar cell electrical wiring Edge view of module

PV Systems: Solar module construction Suntech - Cell and Module Manufacturing: 24

PV Systems: Solar module construction Bosch – Solar Module Manufacturing: 25

PV Systems: Solar module operation Deutsche Gesellschaft für Sonnenenergie, Planning and Installing PV Systems

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com. Inc. All rights reserved.