2019-2020 / GEOL1046-1

Geothermy

Duration

18h Th, 15h Pr, 40h Proj., 1d FW

Number of credits

 Master of Science (MSc) in Geological and Mining Engineering5 crédits  
 Master of Science (MSc) in Geological and Mining Engineering (Co-diplomation avec l'Université polytechnique de Madrid)5 crédits  
 Master in geology (120 ECTS)5 crédits  
 Master in geology (60 ECTS)5 crédits  

Lecturer

Robert Charlier, Alain Dassargues, Hans-Balder Havenith

Coordinator

N...

Language(s) of instruction

English language

Organisation and examination

Teaching in the second semester

Schedule

Schedule online

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

Introduction (6h)

  • Heat transfer in saturated porous media (equations and main parameters) (A.Dassargues) 2h
  • Building energy needs (S. Attia) 2h
  • Heat pumps, performance coefficients, ... (V.Lemort or P. Dewaleffe) 2h
Open systems (shallow and deep geothermy in relation with hydrogeology) (A.Dassargues) 4h
  • Introduction
  • Different systems including ATES (Aquifer Thermal Energy Storage)for shallow and deep open systems
  • Possible impacts on the gw resources (quantity, quality, cumulative aspects), permitting aspects
  • Hydrochemical aspects
  • Methodological aspects before and for an efficient design
Closed systems (in boreholes, piles, horizontal loops...) (R.Charlier) 6h + 0.5 jtt
  • Introduction
  • Design and efficiency of closed systems: geology, tubes, grouting, drilling, depth and interactions, long term behaviour ...
  • Design, operation and interpretation of Thermal Response Tests (TRT)
  • (if possible field trip of 0.5 day with a TRT demonstration)
Potential and geological aspects of deep geothermy (H. Havenith) 6h + 1.5 jtt
  • Deep geothermal energy exploration and exploitation: case studies, favourable geological site conditions, prospection methods, design, implementation, ...
  • Application of3D geomodelling for deep geothermy
  • Field trip at a deep geothermal exploitation /drilling site: Soultz-sous-forêt and/or Mol
  • Invited seminars.

Learning outcomes of the learning unit

At the end of the course, the student will have a strong basic skill in geothermy. He will be able to: - be familiar with the main characteristics of geothermal systems;
- make adequate conceptual choices in function of the local energy demand and local geological and hydrogeological conditions;
- collect and organise the needed data for a first assessment and then a feasibility study of the geothermal system;
- calculate basic feasibility aspects of a deep as well as of a shallow geothermal system;
- detect advantages and drawbacks in the choice of an site for geothermal use;
- assess / calculate the mid- and long-term behaviour of a geothermal system in function of the undeground characteristics;
- assess possible impacts on the groundwater resources of a geothermal system.

Prerequisite knowledge and skills

Basic knowledge and understanding of geology and hydrogeology.
Elementary notions of physics (essentially thermodynamics) and chemistry.
No official prerequesite course is compulsory.

Planned learning activities and teaching methods

The course is composed of "ex-cathedra" lectures (see content above).
Practicalwork/exercise (30h) consists in a comparative study of the different geothermal systems in one given site and for a given specific energy demand (i.e. on the basis of geological, hydrogeological, geomechanical and thermal basic data, each group of students must prepare concurrent projects).

Mode of delivery (face-to-face ; distance-learning)

Face-to-face for theory teaching.
In groups of 2 for practical work.

Recommended or required readings

A pdf copy of transparents and different publications will be made available on eCampus. 
For the shallow geothermy with open systems, it could be useful to check chapter 11 of the following book: Dassargues, A. 2018. Hydrogeology: groundwater science and engineering. Taylor & Francis CRC Press, 472p.

Assessment methods and criteria

Oral exam consists in a short 'professional' ppt presentation of the main results from the practical work, then questions by the professors acting as 'stake-holders' of the geothermal operation ...
A good knowledge and a perfect command of the fundamentals from all the concerned topics of this geothermy course are indeed needed for being able to provide adequate answers.

Work placement(s)

Organizational remarks

The course will be given during the 2nd semester. The schedule and the room should be checked on CELCAT. 

Contacts

Professor: Alain Dassargues 04/3662376 Alain.Dassargues@uliege.be
Professor: Robert Charlier 04/3669334 Robert.Charlier@uliege.be
Professeur Hans Havenith 04/3669316 HB.Havenith@uliege.be
 
 
 

Adaptation of teaching commitments following the COVID-19 pandemic for the May-June 2020 session

Teaching methods implemented : distance-learning

Assessment subjects

Assessment methods

2 groups are preparing an urban geothermal project. Each group must record a commented powerpoint (or video), with an mp4 export, to be uploaded on eCampus min 24 hours before the exam. On the day of the exam, an individual oral remote interview by lifesize will be organized to ask more precise questions to each student about the geothermal project. All students in Group 1 will pass sequentially before doing the same for Group 2. We will ask the students to bring a white sheet of paper and a black marker to show us a diagram/schema via the camera to explain/illustrate what they have to say.

Contacts

Adaptation of teaching commitments following the COVID-19 pandemic for the Aug-Sept 2020 session

Assessment subjects

Assessment methods

Contacts