Modelling the evolution of temperature inside LaNi<inf>4.78</inf>Sn<inf>0.22</inf> storage tank during refueling: Fid-Bau Portal

Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

Modelling the evolution of temperature inside LaNi4.78Sn0.22 storage tank during refueling

Selvaraj, Nivas Babu / Chapelle, David / Perreux, Dominique / Figiel, Henryk

AbstractThis work presents a systematic approach for modeling, optimization and control of metal hydride tanks used for hydrogen storage. A detailed mathematical model is developed using commercial software MATLAB, the objective is to know the maximum of temperature generated during hydrogen absorption and its profile according to time for various tank dimensions. The material we use here is LaNi4.78Sn0.22. This model provides significant insight into the problem of heat exchange and first hand information about the temperature at the surface of the tank at different times.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Modelling the evolution of temperature inside LaNi4.78Sn0.22 storage tank during refueling

Selvaraj, Nivas Babu / Chapelle, David / Perreux, Dominique / Figiel, Henryk

AbstractThis work presents a systematic approach for modeling, optimization and control of metal hydride tanks used for hydrogen storage. A detailed mathematical model is developed using commercial software MATLAB, the objective is to know the maximum of temperature generated during hydrogen absorption and its profile according to time for various tank dimensions. The material we use here is LaNi4.78Sn0.22. This model provides significant insight into the problem of heat exchange and first hand information about the temperature at the surface of the tank at different times.

Modelling the evolution of temperature inside LaNi4.78Sn0.22 storage tank during refueling

Selvaraj, Nivas Babu / Chapelle, David / Perreux, Dominique / Figiel, Henryk

AbstractThis work presents a systematic approach for modeling, optimization and control of metal hydride tanks used for hydrogen storage. A detailed mathematical model is developed using commercial software MATLAB, the objective is to know the maximum of temperature generated during hydrogen absorption and its profile according to time for various tank dimensions. The material we use here is LaNi4.78Sn0.22. This model provides significant insight into the problem of heat exchange and first hand information about the temperature at the surface of the tank at different times.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Document information

Title:

Modelling the evolution of temperature inside LaNi4.78Sn0.22 storage tank during refueling

Contributors:

Selvaraj, Nivas Babu (author) / Chapelle, David (author) / Perreux, Dominique (author) / Figiel, Henryk (author)

Publication date:

2008-07-01

Size:

4 pages

ISSN:

DOI:

https://doi.org/10.1016/j.matdes.2008.07.007

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Intermetallics , Thermal analysis

Similar titles

Modelling the evolution of temperature inside LaNi4.78Sn0.22 storage tank during refueling

Selvaraj, N. B. / Chapelle, D. / Perreux, D. et al. | British Library Online Contents | 2009

Simulation of hydrogen tank refueling

Salcido Sanchez, Jose Luis | BASE | 2021

Free access

Roces, M. P. / Queensland Art Gallery | British Library Conference Proceedings | 1999

Inspection and Ageing Evaluation of Refueling Water Storage Tank Bottom in a Nuclear Power Plant

Xu, Wei / Li, Kai | British Library Online Contents | 2016

Theoretical Analysis on Electronic Structure of LaNi~4Co Hydrogen Storage Alloy

Li, L. / Renjie, C. / Feng, W. | British Library Online Contents | 2007