preliminary projectexcepted project deliveries preliminary project 23.03.2018 bachelor thesis...

Preliminary Project Modeling, simulation and testing of home energy management control system, based on renewable energy B18E06 23.03.2018 Electrical Power Engineering

Project information:

The organization:

Supervisor: Ph.DNicolae Lucian Mihet

Submitted by: Shadi Y. Haj Yahia

Mustafa Salman

Project title: Modeling, simulation and testing of home energy management control system,

based on renewable energy

Scheduled start: 01.03.2018

Scheduled compilation: 07.06.2018

Project number: B18E06

In cooperation with University College Østfold

Table of contents Project information: ....................................................................................................... 2

The organization: ........................................................................................................... 2

Contact Information: ..................................................................................................... 4

Project participants: ................................................................................................... 4

Supervisor: ................................................................................................................. 4

Organizing chart: ....................................................................................................... 5

1.Introduction ................................................................................................................ 6

1.2Motivation ............................................................................................................ 6

Objectives .................................................................................................................. 6

Project GOALS ......................................................................................................... 6

Excepted project deliveries ....................................................................................... 7

Courses, equipment and lab setups: .............................................................................. 7

Lab equipment ........................................................................................................... 7

Basic Equipment: ...................................................................................................... 8

Software programs .................................................................................................. 11

Lab Soft: .................................................................................................................. 11

MATLAB ................................................................................................................. 11

Simulink .................................................................................................................. 12

SCADA for power lab ............................................................................................. 12

Bibliography ............................................................................................................ 13

Milestone plan: ............................................................................................................ 14

Gantt Diagram ............................................................................................................. 15

Deadlines ..................................................................................................................... 16

CTR- Cost, Time and resource .................................................................................... 16

CTR 1 ...................................................................................................................... 17

CTR2 ....................................................................................................................... 18

CTR 3 ...................................................................................................................... 19

CTR 4 ...................................................................................................................... 20

CTR 5 ...................................................................................................................... 21

CTR 6 ...................................................................................................................... 22

CTR 7 ...................................................................................................................... 23

CTR 8 ...................................................................................................................... 24

CTR 9 ...................................................................................................................... 25

CTR 10 .................................................................................................................... 27

CTR 11..................................................................................................................... 27

CTR 12 .................................................................................................................... 28

CTR 13 .................................................................................................................... 29

CTR 14 .................................................................................................................... 31

CTR 15 .................................................................................................................... 32

CTR 16 .................................................................................................................... 33

Referanser .................................................................................................................... 34

Contact Information:

Project participants:

Shadi Y.Haj Yahia Electrical Engineering

41364980 [email protected]

Mustafa Salman Electrical Engineering


Supervisor:

Nicolae Lucian Mihet

Ph.D. Electrical engineering


Organizing chart:

University College Ostfold

Nicolae Lucian Mihet

Supervisor/ Mana-

ger

Shadi Y. Haj Yahia

Mustafa Salman

Project participant

Project Manager

and participant

1.Introduction

The following work is inspired by the importance of climate protection, cost savings and resource

conservation. By acquiring and developing data of energy consumption and generation simultane-

ously, we will be able to analyze, control, and study the home energy in an optimal way. Analyzing

the different scenarios that accrue by time, would help us control the home energy system for opti-

mal results.

1.2Motivation

Electric utilities are constantly under pressure due to increase in customer demand. These days due

to economical restrictions and environmental concerns to greenhouse gas (GHG) emissions, electric

utility companies are being prevented to expand their fossil fuel generation facilities. [1]

By eliminating the past solution of expansion for electric generation utilities, companies are forced

to adopt new solutions and philosophy. Renewable technology, smart grid technology and commu-

nication infrastructure will be required to meet the ever-increasing demand for energy. [1]

the focus on this thesis will be in home energy management system (HEMS) based on renewables.

HEMS is designed to decrease consumer costs by managing the home consumption demand and

generation.

Our focus will be mainly on development of simulation models for our different components in the

house, as well as developing a controller which is able to monitor, analyze and control these compo-

nents. The development of simulation models will help us study and compare simulation with meas-

urements of consumption and generation.

Objectives

Our objectives to this project is to develop simulation models based on consumption and genera-

tion, for our components which will include house appliances, photovoltaic system and battery stor-

age system. to be able to analyze, monitor and control all our appliances and components in an opti-

mal way, we will develop home energy management controller using MATLAB and Simulink.

Project GOALS our goal in this project is to develop Realtime scenarios, and prove simulation models can be used

extensively.

Excepted project deliveries

Preliminary project 23.03.2018

Bachelor thesis 07.06.2018

Courses, equipment and lab setups:

First. Course is titled modern photovoltaic systems in grid-coupled operation. This training system permits a genuine simulation of the sun's path. Therefore, it is also possible to perform the experiments in the laboratory without real sunlight using the emula-tors. The design of photovoltaic systems connected to the grid is realistically conveyed. In order to stabilize the power grid, techniques such as de-rating the inverter power and a variable local network power transformer are employed. Transfer of knowledge, know-how and PC supported evaluation of measurement data are made possible by the multi-media course with the help of the SCADA Power Lab software. [2] Course contents: [2]

- Introduction to solar radiation

- Introduction to the fundamentals of photovoltaics

- Planning and dimensioning grid-coupled photovoltaic systems

- Commissioning photovoltaic systems

- Local network voltage regulation

Requirements for this course: [2]

- Basic knowledge of electrical engineering

- Basic knowledge of semiconductors

- Measurement technology

- Three-phase technology

- Energy transmission

- Energy managemen

Lab equipment

Basic Equipment:

3-phase industrial photovoltaic converter

Solar module with solar alti-

tude emulator

Isolating transformer, 3-phase,

1 KW Variable 3-phase transformer with

motor drive

Variable ohmic load, 3-

phase 1kW

Load unit, 1kΩ / 500 W

Media Equipment: Power Supply equipment:

Interactive Lab Assistant: Professional photovolta-ics

SCADA for PowerLab

Solar Panel Emulator

Solar panel emulator, 1.5 kW, 500 V

Universal power supply for electric machines

Measurement devices:

Second. Course is titled as battery storage system in smart grids

Training contents:

- Design and installation of the battery storage unit

- Putting the storage unit into operation

- Remote control of energy storage units using SCADA software

- Optimizing response through smart consumes (load)

- Storage unit integration into a smart grid

- Investigating battery storage devices with PV system

- Investigating storage system towards consumer

Equipment’s:

Analog-digital multimeter 3-phase power quality meter with display and long-term memory

(Battery storage system )

Software programs

Lab Soft:

Lab Soft Classroom Manager is a comprehensive set of administration software for the UniTrain

system and all LabSoft courses and setups which is mentioned above. Classroom Manager com-

prises the following independent program components:

LabSoft Manager: Administration of students and courses in LabSoft

LabSoft Reporter: Student reports and statistics

LabSoft Editor: Creation and editing of courses and tests

LabSoft Questioner: Creation of questions, measuring

exercises and sets of questions for courses and tests

LabSoft TestCreator: Automatic generation of tests on the

basis of sets of questions. [3]

Features:

Ease of use of all programs thanks to graphical user interface

in all component programs

For use in local area networks or on stand-alone PC

Ease of installation

No additional database software required

Access control via USB dongle [3]

(MATLAB LOGO)

MATLAB

(matrix laboratory) is a high-performance language for technical computing, exclusive

programming language developed by MathWorks, it integrates computation, visualiza-

tion, and programming in an environment where problems and solutions are expressed in

familiar mathematical notation. Typical areas of use; [4]

- Mathematics and computer science

- Algorithm development

- Modelling and simulation

- Data analysis, visualization

- Scientific and engineering graphics

- Applications development

(Simulink logo)

Simulink

Simulink is an graphical programming environment for simulation and model-based design for dy-

namic and embedded systems. Developed by Mathworks. It provides an interactive graphical envi-

ronment and a customizable set of block libraries that let you design, simulate, implement, and test

a variety of time-varying systems, including communications, controls, signal processing, video

processing, and image processing. This program is widely used by engineers and scientist all over

the world. [5]

SCADA for power lab

SCADA is an acronym that stands for supervisory control and data acquisition (SCADA) of technical processes in real time. In electrical power engineering, SCADA is deployed for a range of operations from power generation, transmission and line protection all the way to power utilization. SCADA allows users to: [6]

• track and enter data as part of technical processes.

• display readings in real time.

• modify and control signals during processes.

• automatically control processes.

Recording of multiple measured values permits both future planning and economic optimization. The system can be remotely controlled by means of local access networks (LAN). SCADA Power Engineering Lab is a software program designed for control and monitoring of power engineering systems. The software provides real-time dis-play of all measured values and operating states of the system's instruments. Important parameters and signals can be controlled by the software.By means of a data logger, the readings and equipment operating states can be selected, saved, displayed and evaluated with respect to time, and exported. [6]

Bibliography

SCADA- Supervisory Control And Data Acquisition

LAN – Local access network

MATLAB- Matrix laboratory

HEMS- Home energy management system

GHG- Greenhouse gas

EMS- Energy management system

BMS- Battery management system

PVS- Photovoltaic system

BSS- Battery storage system

Milestone plan:

milestones

I- Incharge

CTR

Shadi Mustafa Lucian

supervisior

Time(hour)

E- Executing

C- Controlling

Preliminary project 1 I,C C,E C 50 hours

Brainstorming session 2 I,C C,E 20 hours

Assessment Report 3 I,C C,E C 200 hours

Website creation 4 I,C C,E C 20 hours

Theory study 5 I,C C,E 150 hours

Introduction to MATLAB 6 I,C C,E C 50 hours

Develop simulation models 7 I,C C,E C 100 hours

Develop different scenarios 8 I,C C,E C 100 hours

Lab-setup study 9 I,C C,E 60 hours

Lab-testing 10 I,C C,E C 30 hours

Introduction to Simulink 11 I,C C,E 100 hours

Website finalization 12 I,C C,E 6 hours

Project registration 13 I,C C,E 1 hour

EXPO-catalog 14 I,C C,E 3 hours

Press release 15 I,C C,E 3 hours

EXPO 16 I,C,E I,C,E 30 hours

Total hours spent 923

Gantt Diagram

2/14/2018 3/6/2018 3/26/2018 4/15/2018 5/5/2018 5/25/2018 6/14/2018

Preliminary Project

Brainstorming session

Assessment Report

Website Creation

Theory Study

MATLAB Simulink Software

Develop simulation models

Develop different scenarios

Lab-setup study

Lab-testing

Introduction to Simulink

Website finalization

Project registration

EXPO-catalog

Press release

EXPO

3/10/2018

2/23/2018

3/1/2018

5/1/2018

3/1/2018

3/23/2018

3/23/2018

3/23/2018

2/25/2018

3/1/2018

3/23/2018

5/1/2018

5/1/2018

5/1/2018

5/1/2018

5/20/2018

14

10

92

1

92

70

70

70

60

56

70

31

10

5

5

12

Preliminary

Project

Brainstormingsessio

n

Assessment

Report

Website

Creation

TheoryStudy

MATLAB

Simulink

Software

Develop

simulation

models

Develop

different

scenarios

Lab-setupstudy

Lab-testing

Introduction

toSimuli

nk

Website

finalization

Projectregistration

EXPO-catalo

g

Pressreleas

eEXPO

start date 3/10/22/23/23/1/205/1/203/1/203/23/23/23/23/23/22/25/23/1/203/23/25/1/205/1/205/1/205/1/205/20/2

Duration 14109219270707060567031105512

- Gantt diagram

Deadlines

Activity

Deadline

Preliminary Project 23.03.2018

Website creation 06.04.2018

Expo Catalog 30.04.2018

Press release 22.05.2018

Website compilation 06.06.2018

Project registration 07.06.2018

Main project 07.06.2018

Expo

14-15.06.2018

CTR- Cost, Time and resource

For each milestone, a CTR activity description has been prepared. Sixteen CTR pages are attached

to this file, through the CTR’S you will be able to find description of each activity mentioned in the

milestone plan.

CTR 1 COST TIME & RESOURCE

Project: Home Energy Managment Project ID:

Contracting authority: University college Østfold


Scheduled for completion: 19.03.2018

Duration: 9-12 days

CTR (Activity Number): 1 Title: Pre-project report Date: 01.04.17 Rev: 1

Goal: (What should be achieved with the activity)

The pre-project will provide a comprehensive description of chosen solution methodology and implementation.

Process description: (What should be done)

- Formulate an exact topic. - Develop progress plan with project activities. - Fill out CTR out of activities - Map project goals. - Develop Gant chart of activities with time charts. Shadi Haj Yahia, Mustafa Salman, performs the activity.

Input data: (What must be in place to start the activity)

- Meeting with our supervisor to understand our project precisely.

- First draft defining the objectives and main activities of the project - Lab training for necessary knowledge

Deliveries:

Professional photovoltaics trainer, Energy storage system, Microlabbox, Matlab Simulink, New powerful computers.

Comments, assumptions:

Must hold regular meetings with the universities supervisor to get feedback on the report and status on the equipment wait for.

Resource requirements

Acquisitions: Hours:

-Lab Equipment +30h/participant

CTR2 COST TIME & RESOURCE

Project: project ID:

Contracting authority: University college Østfold

Scheduled start: 23.02.2018 Scheduled for completion: 03.03.2018

Duration: 10 days

CTR (Activity number): 2

Title: Brainstorming session Rev: 1


Brainstorming on how the problem should be solved with all aspects in focus, what we are going to work with, what areas of focus, and how can we study these areas.


1. Continuously work with several aspects of the various solutions in home energy

management systems. 2. Do the studies necessary for general information of the systems the will be used in

the lab. The activity is performed by: Shadi Haj Yahia, Mustafa Salman.


1. Read sufficient literature for good technical understanding. 2. Work on lab setups 3. Machinery is needed to gain the knowledge of PV system, energy storage

Deliveries

All setups are placed in the lab provided by the university.


Read sufficient literature for good technical understanding, and practice using the ma-chines.


-theory understanding of the equipment -Article readings (ess, pvs, Microlabbox, smart meter)

Participants: Controlled by:

Shadi Haj Yahia

Acquisitions: hours: 20

Project: Project ID: Contracting authority: University College Ostfold



Duration: 75 days

CTR (Activity Number): 3 Title: Assessment Report Date: Rev: 1



1. Develop a problem related to the task. 2. Schedule project activities and tasks. 3. Develop technical theory after completion of the literature study. 4. Practice and learn the different setups in the lab. 5. MATLAB simulations and calculations 6. Selection of solutions 7. Thesis writing 8. Testing 9. Approval from the supervisor 10. Conclusion


none


none Deliveries:

We are currently waiting for better computers that can handle the labsetups


The main report will be prepared in parallel with all activities.


Acquisitions: none Hours: 200 hours

Participants: Shadi, Mustafa Controlled by: Supervisor

Project: Home energy managment Project ID:

Contracting authority: University College Ostfold


Duration: 1 day

CTR (Activity Number): 4 Title: Website Creation Date: Rev: 1



The site must contain minimum: -Preliminary project -group information We will create a simplified version in the start phase.


none


none

Deliveries:

none


We will provide our readers with a good and understanding website, not to sophisticated






Duration: 90 days

CTR (Activity Number): 3 Title: theory study Date: Rev: 1



1. Study the technologies available in the field of smart energy solutions for homes/buildings 2. Study about photovoltaic technology 3. Study energy storage systems 4. Study home energy management 5. Study Matlab Simulink 6. Study micro lab box, and how to control a system using it 7. Study the different setups in the lab


none


none Deliveries:


This activity started the first day and will end when the project is delivered






Duration: 30 days

CTR (Activity Number): 6 Title: Introduction to MATLAB simulink software

Date: 16.03.2018 Rev: 1



- Our goal from this activity is to learn how to use MATLAB Simulink


none


MATLAB Simulink license. Deliveries:

Waiting for the MATLAB Simulink license


This part will essential to our project as we plan on using the micro lab box as an controller.


Acquisitions: Matlab Simulink license Hours: 50




Duration: 30 days

CTR (Activity Number): 7 Title: Develop simulation mod-els.

Date: Rev: 1



-Our goal is to develop simulation models for PV SYSTEM, ENERGY STORAGE SYSTEM and combina-tions of these two systems together.


Simulation models for different systems.


Matlab license, and CTR NUMBER 6 Deliveries:


This activity will demand a high technical knowledge in operating with MATLAB Simulink.


Acquisitions: Hours: 100 hours





Duration: 10days

CTR (Activity Number): 8 Title: develop different scenar-ios

Date: Rev: 1



-our goal is to develop scenarios that matches with the customer need, such scenarios will be used in our study to learn how to control the systems together for opti-mal results for consumers.


First will need to develop simulation models for our systems 2. Will need to try to control the systems by using a Micro lab box which will function as the brain of the system.


Micro lab box, PV-Setup, Energy storage-setup and MATLAB Simulink software. Deliveries:


This is one of the most demanding parts of our project.







Duration: 2 months

CTR (Activity Number): 9 Title: Lab setup study Date: 16th March 2018 Rev: 1



The goal from this study is provide ourselves with basic knowledge of how the system work and how to connect the systems together -while working on the setups we will gain knowledge: softlab software, Scada system and more.


There is a certain amount of experiments and testing in these setups. All should be done.


Only th equipment Deliveries:


This part of the project will provide us with a practical as well as theortical knowledge which will be used later in the project when putting the systems together.







Duration: 55days

CTR (Activity Number): 10 Title: lab testing Date: Rev: 1


- To pass all lab setup experiments successfully - And to pursue tests with the system controller involved


To pass setup experiments we will be using softlab software and scada system, in each setup we will be tested by the software to check if our Couplings are correct as well as measurements.


Lab equipment

Deliveries:

none


none



Participants: Shadi, Mustafa Controlled by:



Duration: 2 months

CTR (Activity Number): 11 Title: introduction to simulink Date: Rev: 1




- Learn how to use simulink for simulation and developing models

- Master this program for better results of development


Mainly studying, programing, excersizing and working in a team with the supervisor


Deliveries:

MATLAB, Simulink.


We have none experience with this language so it will be hard and demanding to learn.



Participants: Shadi, Mustafa Controlled by:




Duration: one month

CTR (Activity Number): 12 Title: Website finalization Date:



Finalizing the website with all of the content.


Upon completion, the website must contain: -Preliminary project - Project Information / Background - briefly about Østfold university college - briefly about our supervisor - Group contact information with image and simple presentation. - Gallery with pictures. - Technical drawings, and simulations.


-Preliminary project

-simulation models and technical drawings

Deliveries:


We will complete this activity earlier in CTR 4, but we will update the information again in the finalizing stage.




Scheduled for comple-tion:10.05.2018

Duration: 10 days

CTR (Activity Number): 13 Title: Project registration Date: 16. March 2018


Registration of project title in student Web


- The title for the project assignment must be registered individually and by all project participants in StudentWeb.


none Deliveries:

none


none


Acquisitions: Hours: 1 hour




Duration: 5 DAYS

CTR (Activity Number): 14 Title: Expo Catalog Date: 16. mars.2018



Submit material to the EXPO catalog.


Material to be submitted: - Project description (max 100 words) - Information about assignments (max 50 words) - Project title with project information - Pictures of the project group


- Project title

- Project description Deliveries:

none



Acquisitions: pictures of the group Hours: 3 hours




Duration: 5 days

CTR (Activity Number): 15 Title: Press release Date:



Create press release and share the news about the project.


Press release: - Must be prepared to follow formal guidelines - The content must be interesting for the readers - Contact information - Posted on the website. - Send the press release to at least one mass media (newspaper, radio or television)


- Project description Deliveries:

None


None


Acquisitions: Hours:




Duration: 12 DAYS

CTR (Activity Number): 16 Title: EXPO Date:



Prepare oral presentation to EXPO and plan a stand


Prepare presentation with slides for the project progress. Must also write a script individually for the performance and allocate time and number of slides per participant. Schedule the stand for EXPO: - Find out if we can borrow the lab equipment. - Send invitation to businesses - Get an overview of the exhibition space


The whole project. From A-Z Deliveries:

None



Acquisitions: Hours: 30


Referanser

[1] J. p. J. T. K. C. J. S. Cesar Roda, "Home energy management system," p. 6, 12 april 2014.

[2] L. nuelle, «https://www.lucas-nuelle.com,» 23 03 2018. [Internett]. Available:

https://www.lucas-nuelle.com/316/apg/5677/EPH-2-Advanced-Photovoltaics-Trainer-PV-.htm.

[Funnet 23 03 2018].

[3] P. website, «https://www.lucas-nuelle.com,» 2018. [Internett]. Available: https://www.lucas-

nuelle.com/1004/pid/10552/apg/5475/LabSoft-Classroom-Manager-5Ae0-software-suite,-

single-license.htm. [Funnet 23 03 2018].

[4] «wikipedia.org,» wikipedia the free encyclopedia, 2018. [Internett]. Available:

https://en.wikipedia.org/wiki/MATLAB. [Funnet 23 03 2018].

[5] «mathworks.com,» MathWorks, 2018. [Internett]. Available:

https://se.mathworks.com/help/simulink/index.html?s_tid=srchtitle. [Funnet 23 03 2018].

[6] «https://www.lucas-nuelle.com,» Lucas-nuelle , 2018. [Internett]. Available:

https://www.lucas-nuelle.com/317/pid/8838/apg/4657/Software-SCADA-for-PowerLab,-

designer-software.htm. [Funnet 23 03 2018].

preliminary projectexcepted project deliveries preliminary project 23.03.2018 bachelor thesis...

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