About this Section

This training introduces the hybridGEOTABS concept and its main benefits and challenges, providing insights into the technical principles underlying the concept and the design.
The curriculum is organised in 9+1 modules - each of them covering a different topic - with a total duration of approximately 11 hrs. 

After the completion of this curriculum, attendees will be able to comprehend the hybridGEOTABS concept and understand its main advantages and challenges, along with the functionalities and operation of the different system components, gaining some insights on the application of these systems in different types of buildings. Also, they will be able to learn how to use the hybridGEOTABS tool (including hands-on exercises in module 10) and assess its outcomes, by applying it on the pre-design phase of a project or conducting a feasibility study.

Summary

10 modules 11h

About this Section

This training introduces the hybridGEOTABS concept and its main benefits and challenges, providing insights into the technical principles underlying the concept and the design.
The curriculum is organised in 9+1 modules - each of them covering a different topic - with a total duration of approximately 11 hrs. 

After the completion of this curriculum, attendees will be able to comprehend the hybridGEOTABS concept and understand its main advantages and challenges, along with the functionalities and operation of the different system components, gaining some insights on the application of these systems in different types of buildings. Also, they will be able to learn how to use the hybridGEOTABS tool (including hands-on exercises in module 10) and assess its outcomes, by applying it on the pre-design phase of a project or conducting a feasibility study.

Summary

10 modules 11h
Module & Topic
Description
Partners in charge
Slides
Duration
Watch
D1
What is HybridGEOTABS
Introduction to the hybridGEOTABS concept and project.
UGent, BOY
0-20
30min + 15min
D2(G2)
HybridGEOTABS & Comfort/Health
Presentation of the benefits of ’hybridGEOTABS from a sustainability point of view. Incl. demonstration buildings performance.
DTU, MU
0-40
20min
D3(G3)
HybridGEOTABS and Sustainability
Presentation of the benefits of ’hybridGEOTABS from a sustainability point of view. Incl. demonstration buildings performance.
UGent
0-40
20min
D4
HybridGEOTABS challenges for Designers, Design Methodology and Tools for Feasibility Study and Pre-design
Design challenges, principles and guidelines. Explanation of design methodology and application of hybridGEOTABS webtool (Building Efficiency Calculator).
UGent, BOY
0-40
90min
D5
MPC for HVAC-engineers
Introduction to MPC principles, design, and operation tailored for HVAC-designers.
KU Leuven
0-40
20min
D6
Geothermal Borefield Design
Design and operation aspects of the geothermal borefield.
GEOTER
0-40
35min
D7
Geothermal heat pump Design
Design principles for hybridGEOTABS buildings.
VIESSMANN
0-40
42min
D8
Thermally activated building systems
Design principles for hybridGEOTABS buildings and alternatives for renovation projects.
Uponor
0-40
41min
D9
Model predictive control
Introduction to MPC and the developed control algorithms, demonstration of implementation into software and hardware, incl. demonstration buildings.
KU Leuven & EK
0-40
120min
D10
Modelica Crash Course
Introduction to Modelica and Dymola simulation methods through practical exercises.
KU Leuven
0-40
180min + Exercise

Webinar Contents

Modules

D1 What is HybridGEOTABS

Introduction to the hybridGEOTABS concept and project.


Partners in chargeUGent, BOY

Slides0-20

Duration30min + 15min

D2 (G2) HybridGEOTABS & Comfort/Health

Presentation of the benefits of ’hybridGEOTABS from a sustainability point of view. Incl. demonstration buildings performance.


Partners in chargeDTU, MU

Slides0-40

Duration20min

D3 (G3) HybridGEOTABS and Sustainability

Presentation of the benefits of ’hybridGEOTABS from a sustainability point of view. Incl. demonstration buildings performance.


Partners in chargeUGent

Slides0-40

Duration20min

D4 HybridGEOTABS challenges for Designers, Design Methodology and Tools for Feasibility Study and Pre-design

Design challenges, principles and guidelines. Explanation of design methodology and application of hybridGEOTABS webtool (Building Efficiency Calculator).


Partners in chargeUGent, BOY

Slides0-40

Duration90min

D5 MPC for HVAC-engineers

Introduction to MPC principles, design, and operation tailored for HVAC-designers.


Partners in chargeKU Leuven

Slides0-40

Duration20min

D6 Geothermal Borefield Design

Design and operation aspects of the geothermal borefield.


Partners in chargeGEOTER

Slides0-40

Duration35min

D7 Geothermal heat pump Design

Design principles for hybridGEOTABS buildings.


Partners in chargeVIESSMANN

Slides0-40

Duration42min

D8 Thermally activated building systems

Design principles for hybridGEOTABS buildings and alternatives for renovation projects.


Partners in chargeUponor

Slides0-40

Duration41min

D9 Model predictive control

Introduction to MPC and the developed control algorithms, demonstration of implementation into software and hardware, incl. demonstration buildings.


Partners in chargeKU Leuven & EK

Slides0-40

Duration120min

D10 Modelica Crash Course

Introduction to Modelica and Dymola simulation methods through practical exercises.


Partners in chargeKU Leuven

Slides0-40

Duration180min + Exercise

On completion of this curriculum, return to How to exploit hybridGEOTABS for more general training if you have not already completed it.