The wind is blowing on a turbine 10 feet in diameter at a velocity of 12 mph. What is the power developed by the turbine? Power = 0.5 x Swept Area x Air.

Slides:

Advertisements

Similar presentations

TUTORIAL 3 Q1 Draw and label a block diagram the elements of a DC power supply which receives an input from the 240 V; 50 Hz mains and produces an output.

Advertisements

Curt Robbins Assistant Research Engineer Overview -There are over 10,000 off-grid location in Nevada requiring the use of electrical power at a cost of.

Last lecture Hydro power stations, Wind turbine farms, Solar cells And Final exam.

Given Connections Solution

Power Factor Correction Most domestic loads (such as washing machines, air conditioners, and refrigerator) and industrial loads (such as induction motors)

Wind Turbine Energy Conversion System Design and Integration Advisor: Venkataramana Ajjarapu 2009 Project Team Elsammani Ahmed Hassan Burawi Brandon JanssenLuke.

Lesson 25: Solar Panels and Economics of Solar Power

Photovoltaic Solar Cells and Solar Energy Systems for Home Usages Mohammad Anisuzzaman.

1 © Alexis Kwasinski, 2012 Low-power wind generation Power output of each generation unit in the order of a few kW. Power profile is predominately stochastic.

Programming Logic Controllers

Abstract In 2008 President Geoffrey introduced the Live green program which called for environmentally conscious living. In light of this initiative, it.

UDC ZERO ENERGY VISTOR CENTER. System Components Solar Array –Primary Power Generator –Array consists of 12 BP SX3190B Solar Modules.

Efficiency Through Technology 1 Components for Grid Connected Solar Inverters in Residential Applications.

The League of Extraordinary Engineers Dominick D’Angelo Scott Whiteman Jason Ellis.

Solar Power EDSGN 100 Sec. 13 Design Team 1 Kyle Feaster Alex Shivetts Kait Levin.

Measuring Current and Voltage. Current and Voltage ce/energy_electricity_forces/electric_current_ voltage/activity.shtml.

Renewable Energy as Priority

Jeopardy Safety Generating Electricity Circuits In your home Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final Jeopardy Measuring.

Macro-Scale Photovoltaic Technology An Introduction.

Solar Powered Charging Station: Mid-Term Presentation Design Team: Ben Hemp Jahmai Turner Rob Wolf, PE Sponsors: Conn Center for Renewable Energy Dr. James.

Hybrid Wind & Solar Generation Project

Energy Jeopardy. Conserving Energy Wind Power Solar Power Fossil Fuels

Lakshmi GopiReddy Adventures in STEM Final Project: The Electric and Micro Grid.

9/13/20151 The flow of electrons M Tommasi. 9/13/20152 Electric current Static electricity is the…….. The flow of e - in a wire is called an electric.

1.6 Real Single-Phase Transformer.

I. Background The increasing use of Renewable Energy Sources (RES) such as Solar Cell and Wind Turbine Power convertion from DC to AC The using of non.

Solar Photovoltaic

Energy, Power, and Climate Change 8.5 Solar Power  Recall that the energy of the sun is responsible for all of our coal, oil, and wood fuels. S OLAR.

A Solar Powered Bus Stop System

Renewable Power Generation Solar Photovoltaic (PV) Wind Energy Hydropower Solar Thermal Electric Geothermal.

Robert Simon, Coleman Hostetler, Aashay Sukhthankar, Devin Moore.

Conversion of Rural School to Alternative Green Energy.

1. Complete the following circuit diagram to show the two light bulbs in parallel to each other, connected to the 12 V battery. 2. Marty placed a voltmeter.

Power and Power Measurement ENGR 10 – Intro to Engineering College of Engineering San Jose State University (Ping Hsu and Ken Youssefi) 1 Introduction.

Chapter 9 Power Electronics and Clean Energy 1 “Introduction to Modern Power Electronics”, 2 nd Ed., John Wiley 2010 by Andrzej M. Trzynadlowski Chapter.

Utility Scale Wind Energy Prof. Park UTI-111 Essex County College.

With a knowledge of how to connect cells in parallel and series, we can figure out how to arrange batteries to deliver a desired voltage, and in some cases,

October 11,2013 ECEN 2060 Lecture 21 Fall 2013 Homework Problems\ Chapter 5 problems.

Wind Test Plan ●Test individual components, system in different conditions ●Calculate expected power under various conditions Wind block diagram.

Energy from Wind. The Rating Game Turbine Ratings are weird Bergey XL.1 Rated Power 1 kW Does it produce 1000W all of the time? NO! Only a small percentage.

IB Physics Topic 8 – Solar and Wind 3 Mr. Jean. The plan: Video clip of the day Energy production –Solar Power –Wind Power.

Define static electricity and describe where the spark comes from.

Making an anemometer. Power from the wind Power in the wind Power in the wind Effect of air density,  Effect of air density,  Effect of swept.

Introduction to Solar Photovoltaic (PV) Systems – Part 2

Wind Turbine Power Plant. Sources ●

Electricity Circuits. Learning Goals I will be able to identify both series and parallel circuits. I will be able to draw circuit diagrams.

IB Physics Topic 8 Mr. Jean March 3 rd, The plan: Video clip of the day Energy production –Solar Power –Wind Power –Water Power.

Energy System Design: A Look at Renewable Energy Summary Lecture.

Electrical Current & Circuits By Mr.yasser science.

Abbott Technologies Presents DC To AC Inverters. DC To AC Power Inverters change direct current (DC) to Alternating current (AC).

Portable Power Station University of Wyoming Electrical and Computer Department EE Done By Mohammad S. Almoallem Mahmood S. Almoallem Advised.

Photovoltaic and Battery Primer

Small Scale Wind Turbine

Example of PV System Design

What is MPPT and why it is needed? (Maximum power point tracking)

Solar Powered Charging Station Progress Report

One Line Diagram Example

By: Addison Duhon, Alex Lehocky, Elliot VanLandingham

Wind Farm: Generators that produce AC are generally equipped with features to produce the correct voltage (120 or 240 V) and constant frequency.

IB Physics Topic 8 Mr. Jean March 5th, 2014.

WIND TURBINE GENERATORS.

[Project Name] One-Line Drawing

Resistors in Series and Parallel

Practicals -Transformer

Wind Turbine © D Hoult 2010.

Transformers Derivation Whiteboards.

Introduction to Residential Wind Energy

Calculated Parameter Value

Presentation transcript:

The wind is blowing on a turbine 10 feet in diameter at a velocity of 12 mph. What is the power developed by the turbine? Power = 0.5 x Swept Area x Air Density x Velocity 3 Air density =1.23 k g/m 3 Power = 0.5 x 32.96x 1.23x 5,36 3 = 3121 W Solution;

2. It is desired to obtain 25 kW of AC out of a solar array at 120 VAC, pf = 1. The inverter has an efficiency of 85% and requires 50 VDC to operate. Solar cells are available that provide a voltage output of 0.5 V at 3 A. A How many solar cells are required with a 20% safety factor? Describe the connection diagram of the solar panel array. It is not necessary to draw it. Solution: I = 25kW/120V = A With a 30E% safety factor, I = *1.2 = 250 A This will require 250/3 = = 84 rows (no partial rows. In series, 50/0.5 = 100 solar cells are required.

Therefore, a total of 100 x 84 = 8400 solar cells are required. Allowing for the 85% efficiency of the inverter, 84/.85 = 98.8 = 99 rows are required and 100 in series are still required. Therefore, 100 X 99 = 9900 solar cells are required, 99 rows in parallel and 100 solar cells in series The approximate cost is $625