On the Thermal-Energy Performance of 3D Printed Concrete Wall Panels Designed with Varying Insulation Ratios (2023-07)¶
Ravula Risheek,
Journal Article - Journal of Building Engineering, Vol. 77
Abstract
Three-dimensional printed concrete (3DPC) is a promising construction method that has gained recognition in recent years. With the growing focus on energy-efficient buildings, it is important to understand the thermal-energy performance of 3DPC panels, particularly with different insulation options. However, current knowledge in this area is limited. Therefore, this research investigates the thermal-energy performance of 3DPC walls with various insulation materials and insulation layer heights. Thermal models were developed using THERM 7.8 software and validated against available literature and ISO 10211 thermal test cases. A total of 42 numerical models were developed, varying wall width (100 mm and 200 mm), insulation ratios (0, 0.2, 0.4, 0.6, 0.8, 1.0), and insulation materials (mineral wool, rockwool, fibre glass wool, and E-PLA). The results demonstrated that increasing the insulation ratio leads to a lower U-value. New design equations were developed to capture the effect of insulation ratios, and these equations accurately predicted U-values. This study contributes to understanding the thermal-energy performance of 3DPC walls with different insulation options, and the proposed equations can assist in designing energy-efficient buildings with 3DPC panels.
¶
14 References
- Ahmed Ghafur (2023-01)
A Review of 3D Concrete Printing:
Materials and Process Characterization, Economic Considerations and Environmental Sustainability - Alkhalidi Ammar, Hatuqay Dina (2020-02)
Energy Efficient 3D Printed Buildings:
Material and Techniques Selection Worldwide Study - Hager Izabela, Golonka Anna, Putanowicz Roman (2016-08)
3D Printing of Buildings and Building Components as the Future of Sustainable Construction? - Han Xiaoyu, Yan Jiachuan, Liu Mingjian, Huo Liang et al. (2021-10)
Experimental Study on Large-Scale 3D Printed Concrete Walls Under Axial Compression - He Yawen, Zhang Yamei, Zhang Chao, Zhou Hongyu (2020-05)
Energy-Saving-Potential of 3D Printed Concrete Building with Integrated Living Wall - Hou Shaodan, Duan Zhenhua, Xiao Jianzhuang, Ye Jun (2020-12)
A Review of 3D Printed Concrete:
Performance-Requirements, Testing Measurements and Mix-Design - Luhar Salmabanu, Suntharalingam Thadshajini, Navaratnam Satheeskumar, Luhar Ismail et al. (2020-12)
Sustainable and Renewable Bio-Based Natural Fibers and Its Application for 3D Printed Concrete:
A Review - Marais Hannelie, Christen Heidi, Cho Seung, Villiers Wibke et al. (2021-03)
Computational Assessment of Thermal Performance of 3D Printed Concrete Wall Structures with Cavities - Schuldt Steven, Jagoda Jeneé, Hoisington Andrew, Delorit Justin (2021-03)
A Systematic Review and Analysis of the Viability of 3D Printed Construction in Remote Environments - Siddika Ayesha, Mamun Md., Ferdous Wahid, Saha Ashish et al. (2019-12)
3D Printed Concrete:
Applications, Performance, and Challenges - Sun Jingting, Xiao Jianzhuang, Li Zhengrong, Feng Xiwen (2021-03)
Experimental Study on the Thermal Performance of a 3D Printed Concrete Prototype Building - Suntharalingam Thadshajini, Gatheeshgar Perampalam, Upasiri Irindu, Poologanathan Keerthan et al. (2021-02)
Numerical Study of Fire and Energy Performance of Innovative Lightweight 3D Printed Concrete Wall-Configurations in Modular Building System - Suntharalingam Thadshajini, Upasiri Irindu, Gatheeshgar Perampalam, Poologanathan Keerthan et al. (2021-09)
Energy Performance of 3D Printed Concrete Walls:
A Numerical Study - Zhang Jingchuan, Wang Jialiang, Dong Sufen, Yu Xun et al. (2019-07)
A Review of the Current Progress and Application of 3D Printed Concrete
5 Citations
- Geng Renyu, Jiang Jinming, Du Pengcong, Zhang Huiliang et al. (2025-11)
Multiscale Thermal Optimization of 3D-Printed Walls:
Integrating Structure, Material, and Process with Fire-Thermal Synergy - Dey Dhrutiman, Panda Biranchi, Shukla Yash, Rawal Rajan (2025-03)
A Comprehensive Assessment of Thermal Performance of 3D Printed Concrete Lattice Walls - Khanverdi Mohsen, Das Sreekanta (2025-03)
Experimental Study on Water Penetration and Thermal Resistance of Large-Scale 3D-Printed Cementitious Walls - Sovetova Meruyert, Kaiser Calautit John (2024-08)
Thermal and Energy Efficiency in 3D Printed Buildings:
Review of Geometric Design, Materials and Printing Processes - Rubeis Tullio, Ciccozzi Annamaria, Giusti Letizia, Ambrosini Dario (2024-07)
On the Use of 3D Printing to Enhance the Thermal Performance of Building Envelope:
A Review
BibTeX
@article{ravu_gath.2023.OtTEPo3PCWPDwVIR,
author = "Risheek Ravula and Perampalam Gatheeshgar",
title = "On the Thermal-Energy Performance of 3D Printed Concrete Wall Panels Designed with Varying Insulation Ratios",
doi = "10.1016/j.jobe.2023.107374",
year = "2023",
journal = "Journal of Building Engineering",
volume = "77",
}
Formatted Citation
R. Ravula and P. Gatheeshgar, “On the Thermal-Energy Performance of 3D Printed Concrete Wall Panels Designed with Varying Insulation Ratios”, Journal of Building Engineering, vol. 77, 2023, doi: 10.1016/j.jobe.2023.107374.
Ravula, Risheek, and Perampalam Gatheeshgar. “On the Thermal-Energy Performance of 3D Printed Concrete Wall Panels Designed with Varying Insulation Ratios”. Journal of Building Engineering 77 (2023). https://doi.org/10.1016/j.jobe.2023.107374.