Innovative Insights into Solar Drying of Kola Fish: Mechanisms, Modeling, and Optimization

IF 1.204 Q3 Energy Applied Solar Energy Pub Date : 2024-03-23 DOI:10.3103/S0003701X23601369
Sendhil Kumar Natarajan, Guna Muthuvairavan, Subbarama Kousik Suraparaju, Elavarasan Elangovan, Mahendran Samykano
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Abstract

Solar drying is a method employed to expedite moisture reduction and enhance preservation capacity, characterized by intricate heat and mass transfer processes, challenging the micro-level description of drying kinetics. This study aims to optimize solar drying conditions for kola fish using a double slope solar dryer. An empirical investigation was conducted in three modes viz: open sun drying, natural convection solar dryer and forced convection solar drying. The research underscores the advantages of forced convection drying, showcasing a notable reduction of 4 h in drying time in comparison to natural convection. Furthermore, natural convection surpassed open sun drying, yielding an impressive 18-hour time-saving. An empirical model was formulated to establish the relationship between surface temperature and influential parameters, including insolation, air temperature, and ambient temperature. This model exhibited a high degree of reliability, featuring a correlation coefficient of 0.982 and a narrow standard deviation of 0.028, enabling precise surface temperature predictions under various conditions. The study delved into the effective moisture diffusivity range of kola fish, pinpointing it within the range of 5.16 × 10–9 to 5.29 ×10–8 m2/s. This understanding of intrinsic moisture migration during drying contributes to process optimization. Furthermore, the determination of the activation energy for kola fish drying, which ranged from 28.34 to 38.83 kJ/mol, elucidates the temperature-dependent nature of drying kinetics and underlying energy-driven mechanisms. These revelations significantly enhance the comprehension and advancement of controlled solar drying techniques for kola fish.

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科拉鱼太阳能干燥的创新见解:机理、建模和优化
摘要太阳能干燥是一种加快水分减少和提高保鲜能力的方法,其特点是热量和质量传递过程错综复杂,对干燥动力学的微观描述提出了挑战。本研究旨在利用双坡太阳能干燥器优化科拉鱼的太阳能干燥条件。在三种模式下进行了实证调查,即:露天晒干、自然对流太阳能干燥机和强制对流太阳能干燥。研究强调了强制对流干燥的优势,与自然对流相比,干燥时间明显缩短了 4 小时。此外,自然对流超过了露天阳光干燥,节省了 18 小时的时间,令人印象深刻。为了建立表面温度与日照、空气温度和环境温度等影响参数之间的关系,我们建立了一个经验模型。该模型具有很高的可靠性,相关系数为 0.982,标准偏差仅为 0.028,能够在各种条件下精确预测表面温度。研究深入探讨了柯拉鱼的有效水分扩散范围,将其精确定位在 5.16 × 10-9 至 5.29 ×10-8 m2/s 之间。对干燥过程中内在水分迁移的了解有助于工艺优化。此外,对柯拉鱼干燥活化能的测定(介于 28.34 至 38.83 kJ/mol 之间)阐明了干燥动力学与温度有关的性质和潜在的能量驱动机制。这些启示极大地促进了对可控太阳能科拉鱼干燥技术的理解和发展。
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来源期刊
Applied Solar Energy
Applied Solar Energy Energy-Renewable Energy, Sustainability and the Environment
CiteScore
2.50
自引率
0.00%
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0
期刊介绍: Applied Solar Energy  is an international peer reviewed journal covers various topics of research and development studies on solar energy conversion and use: photovoltaics, thermophotovoltaics, water heaters, passive solar heating systems, drying of agricultural production, water desalination, solar radiation condensers, operation of Big Solar Oven, combined use of solar energy and traditional energy sources, new semiconductors for solar cells and thermophotovoltaic system photocells, engines for autonomous solar stations.
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