Litcius/Paper detail

Predictive modelling of thermo-active tunnels in London Clay

Klementyna A. Gawecka, Wenjie Cui, David M.G. Taborda, David M. Potts, Lidija Zdravković, Alexandros Loukas

2020Géotechnique36 citationsDOIOpen Access PDF

Abstract

Thermo-active structures are underground facilities that enable the exchange of thermal energy between the ground and the overlying buildings, thus providing renewable means of space heating and cooling. Although this technology is becoming increasingly popular, the behaviour of geotechnical structures under additional thermal loading is still not fully understood. This paper focuses on the use of underground tunnels as thermo-active structures and explains their behaviour through a series of finite-element analyses based on an existing case study of isothermal tunnels in London Clay. The bespoke finite-element code adopted – the Imperial College Finite Element Program (ICFEP) – is capable of simulating the fully coupled thermo-hydro-mechanical behaviour of porous materials. The complex coupled interactions between the tunnel and the surrounding soil are explored by comparing results from selected types of coupled and uncoupled simulations. It is demonstrated that: (a) the thermally induced deformation of the tunnel and the ground are more critical design aspects than the thermally induced forces in the tunnel lining, and (b) the modelling approach in terms of the type of analysis, as well as the assumed permeability of the tunnel lining, has a significant effect on the computed tunnel response and, hence, must be chosen carefully.

Topics & Concepts

Finite element methodGeotechnical engineeringThermalPermeability (electromagnetism)BespokePorous mediumEngineeringPorosityGeologyStructural engineeringGeneticsPhysicsLawPolitical scienceMembraneBiologyMeteorologyGeothermal Energy Systems and ApplicationsClimate change and permafrostRock Mechanics and Modeling
Predictive modelling of thermo-active tunnels in London Clay | Litcius