Project

Detailed simulation on thermal performance of flat plate or Evacuated tubular or heat pipe solar collectors

Publisher

Supervisor

Location

Greater Copenhagen area

Different solar collectors (flat plate/ ETC/ heat pipe) have different thermal behavior, which can be described by different theories of thermal dynamics.

The aim of this project is to calculate the thermal performance at varying operation and weather conditions for a given solar collector design.

Student needs to learn/investigate the basic knowledge of thermal dynamics for a certain solar collector type and programming the whole set of control equations and logic in order to simulate the collector’s thermal performance.

The knowledge of this project can help to deeply understand the working principle of solar collectors and qualify you to design a new solar collector.

Programming can be implemented in R, Fortran, Matlab or Python. 

The simulation of flat plate solar collector is a special course and other collectors’ simulation is a master thesis project.

Requirements

Basic knowledge of programming and solar collectors is needed

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Contact

Company / Organization

DTU Byg

Name

Weiqiang Kong

Position

Forsker

Mail

weiko@byg.dtu.dk

Supervisor info

BSc in Civil Engineering

Supervisor

Weiqiang Kong

Co-supervisors

Simon Furbo

ECTS credits

10 - 40

Type

Final project, BSc project, Course project, MSc thesis, Course-related projects, Special course

Must be completed

11128 or 11117

BSc in Environmental Engineering

Supervisor

Weiqiang Kong

Co-supervisors

Simon Furbo

ECTS credits

10 - 40

Type

Final project, BSc project, Course project, MSc thesis, Course-related projects, Special course

Must be completed

11128 or 11117

BSc in Mathematics and Technology

Supervisor

Weiqiang Kong

Co-supervisors

Simon Furbo

ECTS credits

10 - 40

Type

Final project, BSc project, Course project, MSc thesis, Course-related projects, Special course

Must be completed

11128 or 11117

BSc in Software Technology

Supervisor

Weiqiang Kong

Co-supervisors

Simon Furbo

ECTS credits

10 - 40

Type

Final project, BSc project, Course project, MSc thesis, Course-related projects, Special course

Must be completed

11128 or 11117

BSc in Sustainable Energy design

Supervisor

Weiqiang Kong

Co-supervisors

Simon Furbo

ECTS credits

10 - 40

Type

Final project, BSc project, Course project, MSc thesis, Course-related projects, Special course

Must be completed

11128 or 11117

Bachelor of Engineering

Supervisor

Weiqiang Kong

Co-supervisors

Simon Furbo

ECTS credits

10 - 40

Type

Final project, BSc project, Course project, MSc thesis, Course-related projects, Special course

Must be completed

11128 or 11117

Electronics and Computer Engineering

Supervisor

Weiqiang Kong

Co-supervisors

Simon Furbo

ECTS credits

10 - 40

Type

Final project, BSc project, Course project, MSc thesis, Course-related projects, Special course

Must be completed

11128 or 11117

Sustainable Energy

Supervisor

Weiqiang Kong

Co-supervisors

Simon Furbo

ECTS credits

10 - 40

Type

Final project, BSc project, Course project, MSc thesis, Course-related projects, Special course

Must be completed

11128 or 11117

MSc in Civil Engineering

Supervisor

Weiqiang Kong

Co-supervisors

Simon Furbo

ECTS credits

10 - 40

Type

Final project, BSc project, Course project, MSc thesis, Course-related projects, Special course

Must be completed

11128 or 11117

MSc in Sustainable Energy

Supervisor

Weiqiang Kong

Co-supervisors

Simon Furbo

ECTS credits

10 - 40

Type

Final project, BSc project, Course project, MSc thesis, Course-related projects, Special course

Must be completed

11128 or 11117

Technical University of Denmark

For almost two centuries DTU, Technical University of Denmark, has been dedicated to fulfilling the vision of H.C. Ørsted – the father of electromagnetism – who founded the university in 1829 to develop and create value using the natural sciences and the technical sciences to benefit society.


Today, DTU is ranked as one of the foremost technical universities in Europe, continues to set new records in the number of publications, and persistently increases and develops our partnerships with industry, and assignments accomplished by DTU’s public sector consultancy.

Find us here

Anker Engelunds Vej 1
Bygning 101A
2800 Kgs. Lyngby

Denmark



Tlf. (+45) 45 25 25 25

CVR-nr. 30 06 09 46

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