Machine learning Technique for improving the stability of Thermal Energy storage

Radha Raman Chandan; Aditya C.R; Chandra Shekara G.; R. Elankeerthana; K. Anitha; R. Sabitha; Ravishankar Sathyamurthy; V. Mohanavel; M. Sudhakar

doi:10.1016/j.egyr.2022.09.205

Machine learning Technique for improving the stability of Thermal Energy storage

Radha Raman Chandan
, Aditya C.R
, Chandra Shekara G.
, R. Elankeerthana
, K. Anitha
, R. Sabitha
, Ravishankar Sathyamurthy
, V. Mohanavel
, M. Sudhakar^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

In deep learning, it is possible that training efficiency will suffer as a result of redundant data. A lower amount of training data, on the other hand, may result in a model that is unable to capture the necessary features hidden within the dataset. In this paper, we use machine-deep-statistical model to analyse the stability of thermal storage systems i.e., battery in terms of managing the energy storage. These three models offer a prominent success across various applications and in this study, it uses life prediction, state estimation, defect diagnosis, fault detection, behaviour and property analysis via proper modelling and optimization. The validation is conducted in terms of various metrics to estimate the proposed model against various methods. The results of simulation shows that the proposed method achieves higher degree of accuracy with reduced prediction errors than other methods.

Original language	English
Pages (from-to)	897-907
Number of pages	11
Journal	Energy Reports
Volume	8
DOIs	https://doi.org/10.1016/j.egyr.2022.09.205
State	Published - Nov 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022

Keywords

Machine learning
Storage
Thermal energy
Thermal stability

ASJC Scopus subject areas

General Energy

Access to Document

10.1016/j.egyr.2022.09.205

Cite this

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title = "Machine learning Technique for improving the stability of Thermal Energy storage",

abstract = "In deep learning, it is possible that training efficiency will suffer as a result of redundant data. A lower amount of training data, on the other hand, may result in a model that is unable to capture the necessary features hidden within the dataset. In this paper, we use machine-deep-statistical model to analyse the stability of thermal storage systems i.e., battery in terms of managing the energy storage. These three models offer a prominent success across various applications and in this study, it uses life prediction, state estimation, defect diagnosis, fault detection, behaviour and property analysis via proper modelling and optimization. The validation is conducted in terms of various metrics to estimate the proposed model against various methods. The results of simulation shows that the proposed method achieves higher degree of accuracy with reduced prediction errors than other methods.",

keywords = "Machine learning, Storage, Thermal energy, Thermal stability",

author = "Chandan, \{Radha Raman\} and Aditya C.R and G., \{Chandra Shekara\} and R. Elankeerthana and K. Anitha and R. Sabitha and Ravishankar Sathyamurthy and V. Mohanavel and M. Sudhakar",

note = "Publisher Copyright: {\textcopyright} 2022",

year = "2022",

month = nov,

doi = "10.1016/j.egyr.2022.09.205",

language = "English",

volume = "8",

pages = "897--907",

journal = "Energy Reports",

issn = "2352-4847",

publisher = "Elsevier Ltd.",

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TY - JOUR

T1 - Machine learning Technique for improving the stability of Thermal Energy storage

AU - Chandan, Radha Raman

AU - C.R, Aditya

AU - G., Chandra Shekara

AU - Elankeerthana, R.

AU - Anitha, K.

AU - Sabitha, R.

AU - Sathyamurthy, Ravishankar

AU - Mohanavel, V.

AU - Sudhakar, M.

PY - 2022/11

Y1 - 2022/11

N2 - In deep learning, it is possible that training efficiency will suffer as a result of redundant data. A lower amount of training data, on the other hand, may result in a model that is unable to capture the necessary features hidden within the dataset. In this paper, we use machine-deep-statistical model to analyse the stability of thermal storage systems i.e., battery in terms of managing the energy storage. These three models offer a prominent success across various applications and in this study, it uses life prediction, state estimation, defect diagnosis, fault detection, behaviour and property analysis via proper modelling and optimization. The validation is conducted in terms of various metrics to estimate the proposed model against various methods. The results of simulation shows that the proposed method achieves higher degree of accuracy with reduced prediction errors than other methods.

AB - In deep learning, it is possible that training efficiency will suffer as a result of redundant data. A lower amount of training data, on the other hand, may result in a model that is unable to capture the necessary features hidden within the dataset. In this paper, we use machine-deep-statistical model to analyse the stability of thermal storage systems i.e., battery in terms of managing the energy storage. These three models offer a prominent success across various applications and in this study, it uses life prediction, state estimation, defect diagnosis, fault detection, behaviour and property analysis via proper modelling and optimization. The validation is conducted in terms of various metrics to estimate the proposed model against various methods. The results of simulation shows that the proposed method achieves higher degree of accuracy with reduced prediction errors than other methods.

KW - Machine learning

KW - Storage

KW - Thermal energy

KW - Thermal stability

UR - https://www.scopus.com/pages/publications/85140208016

U2 - 10.1016/j.egyr.2022.09.205

DO - 10.1016/j.egyr.2022.09.205

M3 - Article

AN - SCOPUS:85140208016

SN - 2352-4847

VL - 8

SP - 897

EP - 907

JO - Energy Reports

JF - Energy Reports

ER -

Machine learning Technique for improving the stability of Thermal Energy storage

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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