1 / 20

Engineering Orientation Solar Experiment

Engineering Orientation Solar Experiment. The Green Smart Factory - “ Saving money and keeping the environment safe by thinking smart ”. Team #4: Alviz, Catherine Castano, Andres Lezcano, Hansel Polanco, Victor Sousa, Carlos Experiment Mentor: Prof. Wilmer Arellano

rad
Download Presentation

Engineering Orientation Solar Experiment

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Engineering Orientation Solar Experiment The Green Smart Factory - “Saving money and keeping the environment safe by thinking smart” Team #4: Alviz, Catherine Castano, Andres Lezcano, Hansel Polanco, Victor Sousa, Carlos Experiment Mentor: Prof. Wilmer Arellano Senior Design Mentor: Dr. Osama Mohammed

  2. OUTLINE • Introduction • Senior Design Project • Definition of a PV System • Types of PV Systems • Arduino kit • Sample circuit • Microcontroller – algorithm explanation • Relay operation explanation • Live demonstration

  3. TEAM MEMBERS • Hansel Lezcano • Computer Engineering Major • Responsible for all the Matlab programming inside the controller • Catherine Alviz • Electrical Engineering Major specializing in Microcomputers • Work experience in design, maintenance, and assemblage of electronic equipment • Andres Castano • Electrical Engineering Major specializing in Control Systems • Focus on the control design, and has experience in PV installation and design, fire suppression controls systems • Victor Polanco • Electrical Engineering Major specializing in Power Systems • Confronts all energy related problems • Electrical Technician experience • Carlos Sousa • Electrical Engineering Major specializing in Power Systems • Team Leader • Experience in assembly of Mechanical equipment

  4. SENIOR DESIGN PROJECT • Original project from an innovative ideas – improvement/different approach to existing design • Research, design, and implementation throughout two semesters (or one, depending on major) • Working in teams and managing time properly are the key • Platform for new inventions and excellent way to showcase the leadership and technical qualities of the FIU student population

  5. THE GREEN SMART FACTORY • Development of an Energy Management System • Two sources: solar and utility • Multiple loads: motors, and lighting • Renewable source will be used when utility rates are high • Goal is to reduce electricity costs without disturbing the loads • Vital aspects of our Senior Design Project: • Multidisciplinary collaboration and successful teamwork • Developing a plan of action • Detailed research of the topic • Work with anticipation!

  6. WHAT IS A PV SYSTEM? • A photovoltaic system is a system which uses one or more solar panels to convert sunlight into electricity. • It consist of multiple components, including: - PV modules - Mechanical and electrical connections - Mountings - Means of regulating and/or modifying the electrical output.

  7. Figure 1 – Grid Connected PV System

  8. Monocrystalline • Cells cut from a single crystal of silicon • They are a slice of crystal indeed • In appearance, it will have a smooth texture and you willbe able to see the thickness of the slice. • Most efficient and the most expensive to produce. • Rigid and must be mounted in a rigid frame to protect them. TYPES OF SILICON-BASED PV PANELS

  9. TYPES OF SILICON-BASED PV PANELS - 2 2. Policrystalline • Cells are effectively a slice cut from a block of silicon • Large number of crystals • Speckled reflective appearance • Less efficient and less expensive than monocrystalline cells • Rigid frame needed

  10. TYPES OF SILICON-BASED PV PANELS - 3 3. Amorphous cells • They are assembled by placing a thin film of amorphous (non crystalline) silicon onto a wide choice of surfaces • Least efficient / least expensive • Flexible • Power output reduces over time, particularly during the first few months, after which time they are basically stable • The quoted output of an amorphous panel should be that produced after this stabilization

  11. Figure 2 – Photovoltaic Power Station in Germany Figure 3 – Old house renewed with solar panels

  12. ARDUINO KIT • Is an open-source single-board microcontroller • Easily implemented in various multidisciplinary projects • Programmed using language similar to C++ • Detailed explanations are provided for each exercise • Vital to understand the operation of a microcontroller and how it can operate certain components! Figure 4 – Size of Arduino Board

  13. SAMPLE EXERCISE • Two sources will be used – solar panel and battery • Microcontroller will switch from one to another depending on which is generating higher voltage • Relay will perform switching operation Figure 5 – Circuit assembly

  14. MICROCONTROLLER PROGRAMMING

  15. analogRead() • The analogRead() method reads the value of an analog input pin. • Possible values range is 0-1023, where 0 is 0 volts and 1023 is 5 volts.

  16. 2. if (conditional) and ==, !=, <, > (comparison operators) • if, which is used in conjunction with a comparison operator, tests whether a certain condition has been reached, such as an input being above a certain number. The format for an if test is:

  17. WHAT’S A RELAY? • Is an electrically operated switch • Used to control different loads or sources with a single circuit • Various types – DPDT to be used in this sample exercise Figure 6 – DPDT Relay Figure 7 – Wiring Diagram of DPDT

  18. CIRCUIT SCHEMATIC

  19. SUMMARY • SD project – final step in the pursue of your degree • Teamwork, organization, and communication are key! • PV Systems are growing throughout the industry • Monocristallyne, policristallyne, and amorphous panels • Sample assignment includes Microcontrollers, Transistors, and Motors – some of the most frequently used components in a Senior Design Project

More Related