废咖啡渣-生物炭复合相变材料在实验室规模太阳能热水器系统中的设计挑战

Q4 Chemical Engineering

ASEAN Journal of Chemical Engineering Pub Date : 2023-04-29 DOI:10.22146/ajche.80081

Raphael Angelo Mondragon, Sasipa Boonyubol, Shuo Cheng, J. Cross

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引用次数: 0

摘要

近年来，由于努力解决能源问题，使用复合相变材料（CPCM）（如石蜡和不可生物降解的高密度聚乙烯）的热能存储系统越来越受到关注。有必要研究和开发如何从经过热化学处理的生物废物（一种可再生资源）中制备耐用的CPCM。生废咖啡渣（SCG）以前已经进行过实验，但还需要对由热解的SCG生物炭（SCGB）制备的用于水箱的CPCM进行更多的研究。本研究在实验室规模的太阳能热水器系统中研究了由SCGB和巴西棕榈蜡制成的可生物降解CPCM。选择60%的巴西棕榈蜡负载是因为PCM的热蜡泄漏最小化。热表征结果显示，SCGB CPCM的潜热为88.47J/g，与先前报道的其他可生物降解CPCM相比，这是有竞争力的。研究结果还显示了在热能存储系统中使用SCGB和巴西棕榈蜡作为CPCM的进一步潜力。

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Spent Coffee Grounds Biochar Composite Phase Change Material Design Challenges in a Lab-Scale Solar Water Heater System for Thermal Energy Storage

Thermal energy storage systems that use composite phase change materials (CPCM), such as paraffin wax and nonbiodegradable high-density polyethylene, are gaining attention in recent years due to the effort to resolve energy issues. There is a need to undertake research and development on how to prepare durable CPCMs from thermo-chemically treated biowastes, a renewable resource. Raw spent coffee grounds (SCG) have been experimented on previously, but more research needs to be conducted on CPCMs prepared from pyrolyzed SCG-biochar (SCGB) for use in a water tank. This research investigated a biodegradable CPCM made from SCGB and carnauba wax in a lab-scale solar water heater system. The carnauba wax loading of 60% was chosen due to the minimized thermal wax leakage from the PCM. Thermal characterization results revealed that the latent heat of SCGB CPCM is 88.47 J/g which was found to be competitive compared to other biodegradable CPCMs reported earlier. The results also show further potential for using SCGB and carnauba wax as a CPCM in a thermal energy storage system.

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来源期刊

ASEAN Journal of Chemical Engineering Chemical Engineering-Chemical Engineering (all)

CiteScore

1.00

自引率

0.00%

发文量