Page 102

Innovative Energy & Research | ISSN: 2576-1463 | Volume 7

Renewable Energy and Resources

Energy Materials and Fuel Cell Research

2

nd

International Conference on

&

August 27-28, 2018 | Boston, USA

Dimensionless dual phase model for thermocline energy storage behavior analysis

Y Filali Baba, A Al Mers, H Ajdad, and A Bouatem

Higher educational institution in Paris, France

T

hermocline packed-bed single tank concept belongs to the category of sensible heat storage systems (SHS). It is currently presented

as a promising and cost-effective technology to reach efficient thermal energy storage (TES) and sustainable management of the

thermal process. However, this configuration still in a growth stage and need to be developed. Hence the necessity to investigate new

thermal energy storage material (TESM) unexplored until now and determines their characteristics and their storage performances.

In other words, one of the key factors to make this concept more attractive is the wise choice of TESM. In fact, it is well known by the

most researchers that TESM must satisfy several requirements based mainly on the thermophysical properties such as low density,

high thermal capacity, high thermal conductivity, thermal stability, etc. But it is often found that the choice of storage materials based

on these criteria, which are intrinsic to the TESM, sometimes gives, under certain operating conditions and depending on the heat

transfer fluid, inverse results concerning the thermal performance thermocline storage system. Because on the one hand even if the

physicochemical adequacy between the TESM and the HTF is well taken into account in these studies, the adequacy between the

thermophysical properties of the TESM and the HTF is habitually ignored. On the other hand, the compensation between certain

intrinsic properties of the TESM makes the problem more ambiguous. For example, the choice of a material with high heat capacity

is intuitively beneficial for the storage as the choice of a material of high thermal conductivity, which makes it possible to homogenize

the temperature inside the same solid particle. But by analyzing the macroscopic participation of these properties in a thermocline

storage system, it is easy to see that these coefficients have an opposite effect because the heat transfer in the porous bed is driven

by the effective thermal diffusivity of the TESM (among other parameters). In this context, the aim of this work is to propose a

dimensionless model that allows a clear analysis of the general thermal behavior of thermocline system by reducing the number of

parameters. For this purpose, we have introduced dimensionless groups of parameter specific for this kind of system. The model

proposed is based on a dual phase model describing heat and mass transfer inside the porous packed-bed contained in the storage

tank. After validation, the developed model is used to simulate the behavior of charging and discharging the system. Subsequently,

a parametric study revealed the information concerning the influence of each 2 dimensionless group on the discharge efficiency of

the system. The results obtained made it possible to determine in a clear-cut the TESM choice criteria according to the HTF and the

operating conditions of the thermocline.

filalibabayousra@gmail.com

Innov Ener Res 2018, Volume 7

DOI: 10.4172/2576-1463-C2-006