HU121 History of Engineering and Technology Fall 2012/13 Pharos University in Alexandria Faculty of Engineering Engineering Perspectives Laboratory Design.

Slides:

Advertisements

Similar presentations

Washington County Public Schools / Voluntary State Curriculum VSC CO 2 Car Project 1.B.7 Explain that requirements involve the identification of the criteria.

Advertisements

Undergraduate Renewable Energy Courses and Certification Tests John Martini University of Arkansas – Fort Smith ASSET II Annual Meeting Springdale, AR.

 The word “design” is often used as a generic term that refers to anything that was made by a conscious human effort.  Design is also a process that.

VSE Corporation Proprietary Information

S T A T E O F C A L I F O R N I A The Department of General Services Grid Neutral Schools Division of the State Architect, Department of General Services,

What is Solar Power?. There are two types of Solar Power Direct: involves only one transformation into a usable form. – Sunlight hits a photovoltaic cell.

Solar and Wind Power Sustainable Energy.

Solar Power By: Patrick D, Elyse L, and John A. What is Solar Power? Solar power is… Sunlight converted into usable energy. How solar energy is converted.

SoNDa Sensor Network for Data Explore! 1. SoNDa Sensor Network for Data Explore! KEYWORDS Wireless Sensors Communication 2.

Solar Powered Energy Source How solar power works By Luis, Nhi and Hanh.

Renewable Forms of Energy (Also called Alternative Energy or Sustainable Energy)

Wind Turbine Design Grade 1 – ENERGY IN OUR LIVES What have we learned? Wind has energy. The sun is the principal source of.

Wind Turbine Lab (Part A)

A wind turbine is a device that converts kinetic energy from the wind, also called wind energy, into mechanical energy; a process known as wind power.

Power off the Grid 4. The Net Zero Energy Home Produces as much electricity (energy) as it uses. Net metering is needed to monitor energy generated by.

HU121 Engineering Perspectives

Chapter 1 What is Engineering ? PREP004 – Introduction to Applied Engineering College of Engineering - University of Hail Fall 2009.

Level 2 Unit 4 Producing Engineering Solutions Engineering Diploma Level 2 Unit 4 Producing Engineering Solutions An Approach to Unit Delivery and Assessment.

Maple seed sensor housing for desert reconnaissance

HU 164 Research Methods and Techniques Prof. Dr. Abdelsamie Moet Fall 2012/13 Pharos University in Alexandria Faculty of Engineering Course Outline Lect1.

A Solar Powered Bus Stop System

Natural sources of energy Kula Adrian. Wind Turbines A wind turbine is a popular name for a device that converts kinetic energy from the wind into electrical.

Overview of ME 195 SENIOR DESIGN PROJECTS 2009/2010 San Jose State University Department of Mechanical and Aerospace Engineering Instructors: Section 1:

John Beam WebsitePLTW LMS my.pltw.org.

Prof. Dr. Abdelsamie Moet Fall 2012/13 Pharos University in Alexandria Faculty of Engineering HU 121 History of Engineering and Technology Evolution of.

HU 121 History of Engineering and Technology Fall 2012/13 Pharos University in Alexandria Faculty of Engineering Course Outline Lect1.

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

When does mail arrive in my mailbox? Engineering Design Process Mark Eimer and Josiah White.

Current Electricity. What is Current Electricity? Think of all the ways you use electricity each day. You awake to an alarm clock or the radio, turn on.

© 2011 Underwriters Laboratories Inc. All rights reserved. This document may not be reproduced or distributed without authorization. ASSET Safety Management.

Instructional Guide Power & Energy: Whispers of Willing Wind

Wind Power By: Austin Flanagan. Pros  Wind power is a renewable source of electricity *The generation of electricity by the burning of coal is non- renewable.

Alternative Energy Cell Phone Charger Team #6: Jack Boylan Jake Kapoosuzian Rahul George Pennsylvania State University EDSGN 100.

Electrical and Computer Engineering Senior Design John Peeples, Ph. D., P.E. Professor and Department Head.

HU113: Technical Report Writing Prof. Dr. Abdelsamie Moet Fall 2012/13 Pharos University in Alexandria Faculty of Engineering Lecture 3: Learning by Writing.

ISU Science Center : Phase 3 : Dec Speedometer Station This station matches two areas of study into one cohesive system. Current will be induced.

~MEETING TECHNOLOGY~ Unit 1 Lesson 2 © 2011 International Technology and Engineering Educators Association, STEM  Center for Teaching and Learning™ Exploring.

SOLA R POWE R. Solar Power is generated from the PV (Photovoltaic) solar panels and delivered to the control centre. The control centre is made up of.

Learn Engineering: Because Dreams Need Doing When you see a star, fill in the notes on your handout. Please take time to think and reflect.

Energy and Power. Big Idea:  The design of power and energy systems is influenced by cultural, social, economic, political, and environmental concerns.

Olivia Ritter 8th Grade Science CURENT RET July 18, 2013

K-12 Alliance Experiencing Engineering in a Three Dimensional Lesson 1.

Wonder Power is an alternative energy source that will revolutionize vehicles. In essence, Wonder Power is wind converted into electricity. The front.

Human Computer Interaction

By: Nikitha and Shikha. What is Wind Energy? A source of energy that is driven by the force of wind. Wind is caused by huge convection currents in the.

Renewable Forms of Energy (Also called Alternative Energy or Sustainable Energy)

HU113_Assignment31 HU113: Technical Report Writing Prof. Abdelsamie Moet Teaching Assistant: Mrs. Rana El-Gohary Fall 2012/13 Pharos University in Alexandria.

Solar energy Passive solar utilizes building design an placement to maximize heat in the winter and minimize heat in the summer. It is only building, not.

Do Now: Baltimore Polytechnic Institute receives an average of 150 W/m 2 every day during the month of January. How many kW of solar energy land on our.

Solar Energy. What is Solar Energy? - Concepts behind solar energy - How solar energy is used in solar cars.

Do Now: Baltimore Polytechnic Institute receives an average of 150 W/m 2 every day during the month of January. How many kW of solar energy land on our.

Energy: Machines, Motion and Light Energy exists in many different states. Energy can be transformed from one state to another in order to power machines.

  By:Layan 5C Solar Energy   Solar energy is a form of energy from the sun What Is Solar Energy?

RENEWABLE ENERGY WIND, SOLAR AND GEOTHERMAL

Engineering Science of applying scientific, knowledge, in order to design and build structures, machines, devices, systems, materials and processes To.

In today’s world of ever-increasing energy prices and environmental concerns, alternative energy sources are constantly being researched. This project.

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

The Engineering Design Process

PRESENTED BY: MS. PRIYA Energy For Life SOLAR ENERGY 1.

Engineering Design 3-D Printing Curriculum. Overview The challenge The plan The engineering process Meet the requirements Design iteration Plan for next.

2 Unit Physics!. What the course is about? Physics is the study of how objects interact with each other – force, motion, energy, the universe.

 The word “design” is often used as a generic term that refers to anything that was made by a conscious human effort.  Design is also a process that.

Renewable Energy Wind, Solar and Geothermal

An Overview of Engineering Design

Electronics Project Capstone Professor Nick Reeder

~MEETING TECHNOLOGY~ Unit 1 Lesson 2

Wind Turbine Engineering Project - Concept Map

Do Now: Baltimore Polytechnic Institute receives an average of 150 W/m2 every day during the month of January. How many kW of solar energy land on our.

An Overview of Engineering Design

11.3 A Sustainable Energy Future

Presentation transcript:

HU121 History of Engineering and Technology Fall 2012/13 Pharos University in Alexandria Faculty of Engineering Engineering Perspectives Laboratory Design Projects

Freshman Design Progects2 Steps of Engineering Design 1.Identify the need 2.Define the criteria (from the instructor) 3.Explore/ Research/ Investigate 4.Generate alternative solutions 5.Choose a solution (based on pros and cons) 6.Create a detailed design 7.Modeling/ Development/ Production 8.Testing and Evaluation 9.Redesign and Improvement. Reporting and Grading Weekly

Freshman Design Progects3 Freshman Design Projects 1. Rooftop Windmill TurbineEng. Shaimaa 2. Solar Mobile Phone Battery Charger Eng. M. A. Razzaq 3. Crack Propagation SensorEng. M. A. Razzaq 4. Ping ball Projectile LauncherEng. Amr 5. Balloon-driven VehicleEng. Manar 6. Measurement of Pressure-induced Stresses Eng. M. Hassan

Freshman Design Progects4 Faculty* Prof. Dr. Alaa Hamdi E222 Prof. Dr. Abdelsamie Moet E230 * All Faculty and Teaching Staff are consulting resources

Freshman Design Progects5 1. Rooftop Wind Turbine Like all renewable energy technologies, wind systems rely on two main parts: a collector to harness the energy and a generator with electronics to convert the collected wind energy into power we can use. In wind systems, the collector is the rotor, which is made up of a number of blades that rotate to power a generator that produces electricity. The student team is required to review ideas of wind turbine, design, build and test their own prototype. They are also required to propose suggestions for improving the performance of their prototype and for simplifying the manufacturing and assembly.

Freshman Design Progects6 2. Solar Mobile Phone Battery Charger Photovoltaic (PV) Solar Panels generate electricity by the Photovoltaic Effect. Discovered in 1839 by 19 year old Edmund Becquerel. The photovoltaic effect is the phenomenon that certain materials produce electric current when they are exposed to light. Using commercially available PV panels, this project aims at designing, building and testing of a solar mobile phone battery charger. The student team will compare the performance of their charger to commercial devices and comment on the variance.

Freshman Design Progects7 3. Crack Propagation Sensor The process of implementing a damage identification strategy for aerospace, civil and mechanical engineering infrastructure is referred to as structural health monitoring (SHM). Appropriate sensors on critical structural components could help to reduce costs by avoiding unnecessary inspections and will increase the safety of the monitored structures. In this project, the team shall conceive, design, build and test a sensor to detect a propagating crack from a stress concentration site. The sensor should be equipped with an alarm mechanism upon a specified crack extension is detected by the sensor.

Freshman Design Progects8 4. Ping-Pong Ball Launcher This project involves designing, analyzing, constructing, and reporting on a launcher that will propel a Ping-Pong ball, in flight, for any arbitrary distance between one and 5 meters. The Ping-Pong ball must impact the target point with the highest degree of accuracy. Students may consider spring-loaded launchers, compressed gas launchers, catapults, pendulums, and other similar mechanisms as the foundation for their design concept.

Freshman Design Progects9 5. Balloon-Powered Vehicle The goal is to apply what is known about mechanical interactions by building a rocket car that minimizes friction and drag. Materials are available in the lab and in the workshop and outsourced are used to build the balloon powered car.. During performance testing one car will race at a time. One team member prepares the car at the starting line. Cars take off at "Go!" Timers start. Time will be taken twice at preset distances and at car stop (total run time).

Freshman Design Progects10 6. Measurement of Pressure- induced Stresses This projects is intended to guide freshman engineering students to discover the relationship between the internal pressure to stresses acting on the containing wall. An empty 64 oz soft drink bottle is used to model a cylindrical vessel. Students are required to devise mechanisms to introduce and measure a gas (air) pressure measure the stresses on the wall Measurements are plotted and compared to relevant theoretical values. This is to be carried out on the upswing (pressurizing) and downswing (depressurizing) of the device.