Experimental Analysis of Phase Change Materials Supported With Hemp-Stem-Derived Biochar for Enhanced Solar-Thermal Energy Conversion and Storage

Author:

Ponnusamy Prasanth1ORCID,Seenivasan S.2ORCID,Ravivarman G.3,Sathiyasekar K.4,Girimurugan Ramasamy5ORCID

Affiliation:

1. Tagore Institute of Engineering and Technology, India

2. Rathinam Technical Campus, India

3. Karpagam Academy of Higher Education, India

4. KSR College of Engineering, India

5. Nandha College of Technology, India

Abstract

This research focuses on converting hemp stalk into Biochars with 3-dimensional hierarchically directionally dependent pores through a controlled carbonization. These Biochars serve as bolsters for polyethylene glycol to create shape-stable composite PCMs. The research reveals that CPCMs using hierarchically directionally dependent hemp-stem-derived Biochars, attained at 1073 K, exhibit a high PEG1000 rate of loading, considerable heat transfer of latent heat and propitious thermal resistance due to their extensive area of this surface and directionally dependent pores. Furthermore, the SS-Composite PCM based on biochar on demonstrates notable photonic absorption capability, achieving a peak efficiency of solar to thermal conversion 96.77%. The distinct directionally dependent structure of SS-Composite PCMs is apparent in their various thermal conductivities in both the direction of transverse and longitudinal. This improves the effective utilization of Biochars but also provides SS-Composite PCMs with exceptional performance for solar-thermal conversion and storage systems.

Publisher

IGI Global

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