Author Page for Harjit Singh

Effect of Compaction and Particle Size Distribution on the Reusability of Expanded Perlite Vacuum Insulation Panel Cores

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2

Effect of Compaction and Particle Size Distribution on the Reusability of Expanded Perlite Vacuum Insulation Panel Cores

Number of pages: 18 Posted: 10 Apr 2024

Tarek Raad, Dron Kaushik, Vishal Panara and Harjit Singh

Brunel University London, affiliation not provided to SSRN, affiliation not provided to SSRN and Brunel University London - Institute of Energy Futures

Downloads 53 (1,049,673)

Abstract:

Effect of Compaction and Particle Size Distribution on the Reusability of Expanded Perlite Vacuum Insulation Panel Cores

Number of pages: 20 Posted: 02 Jul 2024

Tarek Raad, Dron Kaushik, Vishal Panara, Harjit Singh and S Suresh

Brunel University London, affiliation not provided to SSRN, affiliation not provided to SSRN, Brunel University London - Institute of Energy Futures and National Institute of Technology Tiruchirappalli

Downloads 24 (1,445,011)

Abstract:

2.

A Coupled Model of Finite Element Method and Mie Theory Predictions of the Heat Transfer Inside the Expanded Perlite Vacuum Insulation Panels (Vips) at High Temperatures

Number of pages: 19 Posted: 22 Aug 2023

Mohammad Reza Jalali, Dron Kaushik, Sankarshan Verma and Harjit Singh

affiliation not provided to SSRN, affiliation not provided to SSRN, affiliation not provided to SSRN and Brunel University London - Institute of Energy Futures

Downloads 63 (933,592)

Abstract:

3.

Why and Which Opacifier for Perlite Based Vacuum Insulation Panels (Vips) in the Average Temperature Range of 10 – 70 ℃

Number of pages: 13 Posted: 08 Sep 2022

Sankarshan Verma, Antony Sara and Harjit Singh

Brunel University London, Brunel University London and Brunel University London - Institute of Energy Futures

Downloads 63 (933,592)

Abstract:

4.

Tree Waste Based Advanced Thermal Insulation – Vacuum Insulation Panels - for Application at Up to 70 ℃

Number of pages: 21 Posted: 07 Nov 2023

Tarek Raad, Sankarshan Verma and Harjit Singh

Brunel University London, Brunel University London and Brunel University London - Institute of Energy Futures

Downloads 50 (1,063,489)

Citation 2

Abstract:

5.

Amorphous Carbon Based Nanofluids for Direct Radiative Absorption in Solar Thermal Concentrators

Number of pages: 26 Posted: 14 Aug 2021

Anurag Pramanik, Harjit Singh, Ram Chandra, Virendra Kumar Vijay and S Suresh

Brunel University London, Brunel University London - Institute of Energy Futures, Indian Institute of Technology (IIT), Delhi, Indian Institute of Technology (IIT), Delhi and National Institute of Technology Tiruchirappalli

Downloads 49 (1,074,648)

Abstract:

6.

Vacuum Insulation Enabled Energy Efficient Domestic Cooking Ovens – a Validated Numerical Study

Number of pages: 20 Posted: 06 May 2025

Dron Kaushik and Harjit Singh

affiliation not provided to SSRN and Brunel University London - Institute of Energy Futures

Downloads 45 (1,121,190)

Abstract:

7.

Effective thermal conductivity prediction model for vacuum insulation cores

Number of pages: 22 Posted: 18 Sep 2025

Dron Kaushik, Anirudh Nunna and Harjit Singh

affiliation not provided to SSRN, University of Bath and Brunel University London - Institute of Energy Futures

Downloads 35 (1,263,436)

Harjit Singh

Brunel University London - Institute of Energy Futures

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Scholarly Papers (7)

Effect of Compaction and Particle Size Distribution on the Reusability of Expanded Perlite Vacuum Insulation Panel Cores

Effect of Compaction and Particle Size Distribution on the Reusability of Expanded Perlite Vacuum Insulation Panel Cores

Abstract:

Effect of Compaction and Particle Size Distribution on the Reusability of Expanded Perlite Vacuum Insulation Panel Cores

Abstract:

A Coupled Model of Finite Element Method and Mie Theory Predictions of the Heat Transfer Inside the Expanded Perlite Vacuum Insulation Panels (Vips) at High Temperatures

Abstract:

Why and Which Opacifier for Perlite Based Vacuum Insulation Panels (Vips) in the Average Temperature Range of 10 – 70 ℃

Abstract:

Tree Waste Based Advanced Thermal Insulation – Vacuum Insulation Panels - for Application at Up to 70 ℃

Abstract:

Amorphous Carbon Based Nanofluids for Direct Radiative Absorption in Solar Thermal Concentrators

Abstract:

Vacuum Insulation Enabled Energy Efficient Domestic Cooking Ovens – a Validated Numerical Study

Abstract:

Effective thermal conductivity prediction model for vacuum insulation cores

Abstract: