配备反射器的阶梯式太阳能蒸馏器浓缩甘蔗汁的实验研究

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Rahul Grewal, Mahesh Kumar, Ashok Chaudhary, Pankaj Yadav
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引用次数: 0

摘要

本研究强调了正在进行的研究的重要性,即发展可持续的甘蔗汁蒸发技术,以帮助非离心制糖(NCS)行业。浓缩甘蔗汁(CSJ)是生产各种增值产品的原料。阶梯式太阳能蒸馏器(SSS)是蒸发甘蔗汁中水分的廉价解决方案之一。在这项研究中,测试了一种带有内部和外部反射器(SSS-IR-ER)的阶梯式太阳能蒸发器,在每分钟 25 毫升甘蔗汁的条件下获得 CSJ。将 SSS-IR-ER 装置的热环境经济性能与 SSS 和 SSS-IR(具有内部反射器的 SSS)装置进行了比较。发现 SSS-IR-ER 获得的 CSJ 最终糖度(oB)最高(20.7 oB),分别比 SSS 和 SSS-IR 装置高出 16.90% 和 7.25%。馏出物总产量(冷凝物)和传热系数的变化趋势与 brix 值的变化趋势相似,这证明 SSS-IR-ER 装置在热能方面占主导地位。SSS-IR-ER 的对流和蒸发传热系数最大,分别为 3.89 和 73.78 W/m2°C。SSS-IR-ER 的能量效率和放能效率的平均值分别为 55.25% 和 2.7%,也是所有测试设备中最高的。SSS-IR-ER 在环境和经济方面也具有优势,总生产成本(0.218 美元)、二氧化碳减排量(14.93 吨)和获得的碳信用额(186.73 美元)均为最大值。由此推断,SSS-IR-ER 比 SSS 和 SSS-IR 设备更经济,热效率更高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental study on stepped solar still equipped with reflectors for the concentration of sugarcane juice
The present study accentuate the noteworthiness of ongoing research in evolving sustainable sugarcane juice evaporation technologies to help the non‐centrifugal sugar (NCS) industry. Concentrated sugarcane juice (CSJ) is the raw material for the production of variety of value added products. A stepped solar still (SSS) could be one of the inexpensive solutions to evaporate water from sugarcane juice. In this study, a SSS having internal and external reflectors (SSS‐IR‐ER) is tested at 25 mL/min of sugarcane juice for obtaining CSJ. The thermo‐enviro‐economic performance of SSS‐IR‐ER unit is compared with SSS and SSS‐IR (SSS having internal reflectors) units. The final brix content (oB) of the CSJ obtained from SSS‐IR‐ER is found to be maximum (20.7 oB) which is respectively, 16.90% and 7.25% higher than those of SSS and SSS‐IR units. The total distillate output (condensate) and heat transfer coefficients show similar trends as that of brix values, which proves thermal dominance of SSS‐IR‐ER unit. For SSS‐IR‐ER, the convective and evaporative heat transfer coefficients were found to be maximum as 3.89 and 73.78 W/m2°C, respectively. The average values of energy and exergy efficiencies for SSS‐IR‐ER were, respectively, evaluated as 55.25% and 2.7% which were also observed maximum among the tested units. SSS‐IR‐ER also found to command in environmental and economic aspects with maximum values of total productive cost ($0.218), CO2 mitigation (14.93 tonnes) and carbon credit earned ($186.73). It is inferred that SSS‐IR‐ER is more economical and thermally efficient than SSS and SSS‐IR units.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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