Minor “Engineering of Energy Systems” (E.E.S.)

Slides:

Advertisements

Similar presentations

Heat, Thermodynamics, Heat Transfer and Weather

Advertisements

C. Using Heat 1. Types of heating systems a. Wood or coal burning stove b. Forced-air (most common today)

THERMAL ENERGY Chapter 5.

Unit 4: Alternative Energy Topic 1:Energy Power & Energy 3201.

Hydrogen Filling Station and related renewable energy projects Center for Energy Research at UNLV.

A simplified Flow Chart for Thermal Science

Energy and Work by Jeff Rhoads and Terry Ballinger MSU 2006.

Mid-Term Review Engr 303I Summer Chapter 1 Economic & Environmental Considerations World Energy Consumption Renewable Energy Sources Non-renewable.

Energy Transformations

Fundamentals of Engineering Exam NMSU CoE Fall 2010 NMSU CoE Fall 2010.

Thermodynamics Part II. Remaining Topics Mechanisms of Heat Transfer Thermodynamic Systems and Their Surrounding Thermal Processes Laws of Thermodynamics.

Department Presentation 1 Department of Energy Technology Presentation Naturvidenskabs Festival uge 39, efterår 2010 Department Overview & Activities Jens.

By: Charlie O’Brien Description Mechanical engineering is a field of engineering that uses physics to design, analyze, and manufacture mechanical devices.

Energy Notes. Energy Energy is the ability to do work or make things change. Energy occurs in two main types: – Potential Gravitational, Chemical, Electrical,

SOLAR ENERGY IN BUILDINGS ARE 440 Lecture by: Sabeer Hamid Architectural Engineering Department Lecture by: Sabeer Hamid Architectural Engineering Department.

CHEMICAL ENGINEERING! Anneliese Gunter. JOB DESCRIPTION Job Prospects – Many graduates have entered research organizations, public utilities and consultancies.

Why can’t heat be converted completely into work?.

Renewable Energy and Conservation Chapter 13. Direct Solar Energy Solar energy distribution over the US.

Heat and TemperatureSection 3 Using Heat Chapter 14.3.

Chapter 5 Lecture Concepts in Science Thermal energy vs temperature Thermal Energy: the sum of kinetic energy and potential energy of all the.

Functions, Purpose, and Examples

THERMAL ENERGY By Hannah Pelayic 1 st hour Picture of a solar flair.

Semester 3Semester 4 Mechanical Energy Earth Science Physical Chemistry 2 Active Circuits 1 Sci Maths 3 OR Eng Maths 3 Electrical Energy Thermal Physics.

Chapter 13 Renewable Energy and Conservation. Overview of Chapter 13  Direct Solar Energy  Indirect Solar Energy  Wind  Biomass  Hydropower  Geothermal.

ETC 288 Alternative Energy Class 10 Saturday 4/9 9: :00 AM Course Review, Wrap up ETC 288 Alt Energy.

ME Curriculum. Thermal Systems  Thermodynamics  Thermo (heat) & dynamics (force and motions  work): the science that deals with heat, work, and conversion.

Solar Options The “Greening” of Local Communities.

Thermal Energy & Heat Heat and Its Uses. Thermal Energy & Heat 16.1 Thermal Energy and Matter.

Contributed by: Techtronics Program, Pratt School of Engineering, Duke University.

Physical Science 1 st p. By: Abbi Ulrich. What is thermal energy? Thermal energy is the sum of kinetic and potential energy of the particles in an object;

TEAK – Traveling Engineering Activity Kits

Energy Sustainability, The Challenge for Future Generations John A. Turner National Renewable Energy Laboratory Denver West Pkwy, Golden CO

Energy Transformation Notes 6.9(A) The student will investigate methods of thermal energy transfer, including conduction, convection, and radiation.

Advanced Energy Engineering Technology Modeling Building Energy Systems Session 8: Foundations of heating, cooling and ventilating systems.

1.3 notes  There are 3 types of heat transfer: radiation, conduction, and convection.  The transfer of energy through space is radiation. Sunlight.

Thermal Energy Vocab By Levi Collins. Section One Temperature- the temp. the average kinetic energy of the particles in the object. Thermal Energy-sum.

* Materials that allow heat, electricity, or sound waves to pass through them.

Energy Systems. Energy Energy is the ability to do work Two main forms of energy Kinetic – The energy of motion Kinetic – The energy of motion Potential.

Thermal Energy & Heat Heat and Its Uses. Thermal Energy & Heat 16.1 Thermal Energy and Matter.

Warm-up Energy Reading What are the different types of energy? How is energy transferred or transformed? Lesson Essential Question.

Vincenzo Bianco, Professor of Energy and Thermal Sciences, Polytechnic School T EACHING O FFER OF T HE P OLYTECHNIC S CHOOL R ELEVANT FOR MARUEEB P ROJECT.

Dynamic modelling of adiabatic compressed air energy storage using packed bed thermal energy storage Wei He and Jihong Wang School of Engineering, University.

__________________________ © Cactus Moon Education, LLC. Cactus Moon Education, LLC. Cactus Moon Education, LLC Understanding Green Technologies Energy.

Energy Transfers and Transformations

The 3 Types of Heat Transfer

Minor Industrial Automation

Energy, Environment and Society Course Overview BEX,BCT(IV Year/I Part) Lecture:2 (Per Week) 10/13/20171DEPARTMENT OF ELECTRONICS & COMPUTER ENGINEERING.

Quiz Review Describe energy Describe work

Temperature, Heat, and the First Law of Thermodynamics

Date of download: 11/22/2017 Copyright © ASME. All rights reserved.

Module 39 Solar, Wind, Geothermal, and Hydrogen

Energy Transformations

Thermal Energy & Heat Ch. 16 Intro to Physics.

Recommended course rotation:

A simplified Flow Chart for Thermal Science

Vocabulary Week 4.

FOLDABLES, FLASH CARDS, OR PAPER PENCIL LIST.

Thermal Energy & Heat Heat and Its Uses.

Temperature, Heat , and the First law of thermodynamics

Drawing and Examples (2-3) Dictionary Definition

Heat Temperature Conduction Convection Radiation

Chapter Energy Resources.

Science 9 Chapter 6 JEOPARDY S2C06 Jeopardy Review.

Fundamentals of Renewable Energy, EELE 5355

Heat and thermodynamics Lesson 6.3. Thermodynamics It is the study of conversions between thermal energy and other forms of energy.

Renewable Energy and Conservation

Renewable Energy Vocabulary

Renewable Energy and Conservation

Presentation transcript:

Minor “Engineering of Energy Systems” (E.E.S.) Trynke Papa coördinator minor EES

The Engineering of Energy Systems programme is specifically designed for students that would like to specialize in energy technology and sustainable energy. It is offered in Fall Semester. 30 ECTS.

For admission to this programme, potential participants must have successfully passed the propaedeutic exam of one of the following bachelor programmes; Applied Physics Mechanical Engineering Process Engineering Chemistry (Electrical Engineering maybe in the future)

Programme The programme consists of three modules and one design/research project. The modules are: Advanced thermodynamics (6 ECTS), Advanced heat transfer and fluid dynamics (6 ECTS) Renewable Energy Systems (6 ETCS).

Renewable Energy Systems Solar Energy (Photovoltaic and thermal) Wind Energy Hydrogen Energy Storage Smart grids Biochemical conversion Thermochemical conversion

Advanced thermodynamics 2e law of thermodynamics Exergy Pinch technology Psychrometrics Combustion technology

Advanced heat transfer and fluid dynamics Transient conduction Extended surfaces Radiation Compressible flow Dimensional analysis and modeling Computational Fluid Dynamics

Samenwerking met bedrijven