Design and development of biomass-fueled convective dryer for marine products: energy, exergy, environmental, and economic (4E) analysis

IF 3.5 4区工程技术 Q3 ENERGY & FUELS Biomass Conversion and Biorefinery Pub Date : 2024-08-06 DOI:10.1007/s13399-024-06001-6

P. V. Alfiya, S. Murali, D. S. Aniesrani Delfiya, Manoj P. Samuel

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Abstract

The study aimed to design a biomass-fueled convective dryer and evaluate its performance using anchovy and shrimps. The dryer comprised a biomass furnace, a blower, a drying chamber, stainless steel trays and a chimney. The heat energy for drying was supplied indirectly through ducts by combustion of woody biomass in the furnace. Anchovy had an initial moisture content of 525% dry basis (d.b) and reduced to 17.18% (d.b) within 3.5 h, while the shrimp reached a final moisture content of 18% (d.b) in the same time frame. The logarithmic model was selected as the best fit for anchovy and shrimp drying, with R² values of 0.9989 and 0.9998, RMSE values of 0.0016 and 0.0021 and chi-square values of 0.00033 and 0.00047, respectively. The effective moisture diffusivity of anchovy and shrimp was found to be 6.01 × 10⁻⁷ m²/s and 1.78 × 10⁻⁶ m²/s, respectively. The thermal efficiency of anchovy and shrimp was calculated as 21.23% and 24.15%, respectively. The shrinkage (%) and rehydration ratio of shrimp and anchovy were within the acceptable limit. The energy payback period of biomass dyer was estimated to be 0.27 years. The sustainability index and environment destruction coefficient of the biomass dryer were 1.62 and 2.62, respectively. The waste energy ratio, environmental impact factor and improvement potential of the dryer were determined as 0.618, 1.69 and 0.4408, respectively. The study obtained favourable techno-economical feasibility results for biomass drying of shrimp and anchovy indicating that it can be recommended for large-scale drying of marine foods.

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设计和开发用于海产品的生物质燃料对流干燥器：能源、放能、环境和经济（4E）分析

该研究旨在设计一种以生物质为燃料的对流干燥器，并利用凤尾鱼和虾对其性能进行评估。干燥机由生物质炉、鼓风机、干燥室、不锈钢托盘和烟囱组成。烘干所需的热能通过炉内燃烧木质生物质的管道间接提供。鳀鱼的初始含水量为 525%（干基），在 3.5 小时内降至 17.18%（干基），而虾的最终含水量在相同时间内达到 18%（干基）。对数模型被认为是最适合鳀鱼和对虾干燥的模型，其 R2 值分别为 0.9989 和 0.9998，RMSE 值分别为 0.0016 和 0.0021，秩方值分别为 0.00033 和 0.00047。凤尾鱼和对虾的有效水分扩散率分别为 6.01 × 10-7 m2/s 和 1.78 × 10-6 m2/s。计算得出凤尾鱼和虾的热效率分别为 21.23% 和 24.15%。虾和凤尾鱼的收缩率（%）和再水化率都在可接受的范围内。生物质烘干机的能源回收期估计为 0.27 年。生物质烘干机的可持续性指数和环境破坏系数分别为 1.62 和 2.62。烘干机的废能比、环境影响因子和改进潜力分别为 0.618、1.69 和 0.4408。该研究为虾和鳀鱼的生物质干燥获得了有利的技术经济可行性结果，表明可推荐用于大规模干燥海洋食品。

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来源期刊

Biomass Conversion and Biorefinery Energy-Renewable Energy, Sustainability and the Environment

CiteScore

7.00

自引率

15.00%

发文量

1358

期刊介绍： Biomass Conversion and Biorefinery presents articles and information on research, development and applications in thermo-chemical conversion; physico-chemical conversion and bio-chemical conversion, including all necessary steps for the provision and preparation of the biomass as well as all possible downstream processing steps for the environmentally sound and economically viable provision of energy and chemical products.