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Open Access

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Notice

nThis is an unedited manuscript accepted for publication and provided as an Article in Press for early access at the author’s request. The article will undergo copyediting, typesetting, and galley proof review before final publication. Please be aware that errors may be identified during production that could affect the content. All legal disclaimers of the journal apply.n

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Year : 2025 [if 2224 equals=””]30/09/2025 at 2:01 PM[/if 2224] | [if 1553 equals=””] Volume : 12 [else] Volume : 12[/if 1553] | [if 424 equals=”Regular Issue”]Issue : [/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424] 02 | Page : 17 25

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Aditya Sanyal, Nirmita Mehrotra,

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Ph.D. Research Scholar, Assistant Professor and Head, Department of Architecture and Planning, Gautam Buddha University, Greater Noida, Department of Architecture and Planning, Gautam Buddha University, Greater Noida, Uttar Pradesh, Uttar Pradesh, India, India

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Abstract

nPhase change biomaterials represent a cutting-edge solution in sustainable building design, offering a dynamic approach to thermal regulation. Derived from natural sources such as plant oils and waxes, these materials undergo reversible phase transitions, transitioning between solid and liquid states in response to changes in temperature. This unique property enables phase change biomaterials to store and release thermal energy effectively, making them highly valuable for enhancing energy efficiency and thermal comfort in buildings. Incorporating phase change biomaterials into architectural envelopes offers a range of benefits. By strategically embedding these materials within building components such as walls, ceilings, and floors, architects and engineers can create adaptive thermal envelopes that actively regulate indoor temperatures. Moreover, phase change biomaterials contribute to enhanced occupant comfort by minimizing temperature fluctuations and creating more stable indoor environments. The sustainability benefits of phase change biomaterials further underscore their value in green building design. Unlike synthetic phase change materials derived from non-renewable sources, phase change biomaterials are derived from renewable resources, aligning with the principles of environmental stewardship. Additionally, ongoing research in material science continues to expand the range of available biomaterials, offering designers greater flexibility and customization in meeting specific project requirements. Phase change biomaterials hold immense promises for revolutionizing the way buildings manage energy consumption and thermal comfort. By harnessing the natural properties of these materials, architects, engineers, and researchers can create innovative solutions that promote environmental sustainability while enhancing the quality of the built environment. As the demand for green building solutions continues to grow, phase change biomaterials are poised to play a pivotal role in shaping the future of architecture and construction. This research presents a comparative software analysis of biomaterials and traditional materials using Opaque software, with results indicating which material performs better for thermal insulation in adaptive thermal envelopesnn

Keywords: Phase change biomaterials, adaptive thermal envelope, energy-efficient building, thermal comfort

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[/if 424][if 424 equals=”Special Issue”][This article belongs to Special Issue under section in Journal of Refrigeration, Air conditioning, Heating and ventilation (jorachv)][/if 424][if 424 equals=”Conference”]This article belongs to Conference [/if 424]

How to cite this article:
nAditya Sanyal, Nirmita Mehrotra. [if 2584 equals=”][226 wpautop=0 striphtml=1][else]Enhancing Energy Efficiency of Residential Buildings by Using Phase Change Biomaterials for Adaptive Thermal Envelopes[/if 2584]. Journal of Refrigeration, Air conditioning, Heating and ventilation. 11/07/2025; 12(02):17-25.

How to cite this URL:
nAditya Sanyal, Nirmita Mehrotra. [if 2584 equals=”][226 striphtml=1][else]Enhancing Energy Efficiency of Residential Buildings by Using Phase Change Biomaterials for Adaptive Thermal Envelopes[/if 2584]. Journal of Refrigeration, Air conditioning, Heating and ventilation. 11/07/2025; 12(02):17-25. Available from: https://journals.stmjournals.com/jorachv/article=11/07/2025/view=0

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Keshmiri P. Biomimicry for a sustainable built environment: a state of the art review [Master’s thesis]. Utrecht: Utrecht University; 2025. Available from: https://studenttheses.uu.nl/handle/
500.12932/48352.
Airò Farulla G. Mathematical methods and modeling of energy technologies to support the renewable energy sources integration and the buildings energy flexibility [dissertation]. Palermo (IT): University of Palermo; 2022.
Rashid FL, Al-Obaidi MA, Dhaidan NS, Hussein AK, Ali B, Ben Hamida MBB, et al. Bio-based phase change materials for thermal energy storage and release: a review. J Energy Storage. 2023;73:109219. doi:10.1016/j.est.2023.109219.
Chen L, Zhang Y, Chen Z, Dong Y, Jiang Y, Hua J, et al. Biomaterials technology and policies in the building sector: a review. Environ Chem Lett. 2024;22:715-50. doi:10.1007/s10311-023-01689-w.
Aksamija A. Integrating innovation in architecture: design, methods and technology for progressive practice and research. Hoboken (NJ): John Wiley & Sons; 2017.
Kantaros A, Ganetsos T, Petrescu FIT. Transforming object design and creation: biomaterials and contemporary manufacturing leading the way. Biomimetics. 2024;9(1):48. doi:10.3390/bio
PubMed PMID: 38248622.
Rane N, Choudhary S, Rane J. Enhancing thermal comfort through leading-edge design, monitoring, and optimization technologies: a review. SSRN Electron J. 2023. doi:10.2139/ssrn.
Hagman S. The application of microencapsulated biobased phase change material on textile [master’s thesis]. Borås (Sweden): The Swedish School of Textiles, University of Borås; 2015.
Almusaed A, Almssad A, Alasadi A, Yitmen I, Al-Samaraee S. Assessing the role and efficiency of thermal insulation by the ‘Bio-Green Panel’ in enhancing sustainability in a built environment. Sustainability. 2023;15(13):10418. doi:10.3390/su151310418.
Hassan A, Shakeel Laghari M, Rashid Y. Micro-encapsulated phase change materials: a review of encapsulation, safety and thermal characteristics. Sustainability. 2016;8(10):1046. doi:10.3390/su
Mehling H, Cabeza LF. Heat and Cold Storage with PCM: An Up to Date Introduction into Basics and Applications. Berlin, Heidelberg: Springer-Verlag; 2008. doi:10.1007/978-3-540-68557-9.
Singh R, Ravache B, Sartor D. Building innovation: a guide for high-performance energy efficient buildings in India. Berkeley (CA): Lawrence Berkeley National Laboratory, Energy Technologies Area; 2018.

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DOI: https://doi.org/10.37591/JORACHV.v12i02.0

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[if 424 not_equal=””]Regular Issue[else]Published[/if 424] Subscription Original Research

Journal of Refrigeration, Air conditioning, Heating and ventilation

[if 344 not_equal=””]ISSN: 2394-1952[/if 344]

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Volume	12
[if 424 equals=”Regular Issue”]Issue[/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424]	02
Received	21/06/2025
Accepted	30/06/2025
Published		11/07/2025
Retracted
Publication Time	20 Days

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Enhancing Energy Efficiency of Residential Buildings by Using Phase Change Biomaterials for Adaptive Thermal Envelopes