水热碳化法从西瓜皮中生产水炭。

Hydrochar production from watermelon peel by hydrothermal carbonization.

机构信息

Department of Soil and Water Science, College of Resources and Environment, China Agricultural University, Beijing 100193, China.

出版信息

Bioresour Technol. 2017 Oct;241:236-243. doi: 10.1016/j.biortech.2017.04.012. Epub 2017 Apr 8.

DOI:10.1016/j.biortech.2017.04.012

PMID:28570889

Abstract

Watermelon peel waste was hydrothermally carbonized under 190°C and 260°C for 1h, 6h, and 12h, respectively. The hydrochar and spent liquor were collected and assayed for their properties. The results indicated that hydrochar yield was 2-5% and 46-95% on fresh and dry matter, respectively. Low temperature (190°C) was conducive to high conversion efficiency. The hydrochar had higher C/N ratio (22.19-26.86), more alkyl C, aryl C, and carbonyl C, but lower H/C (0.98-1.22) and O/C ratios (0.13-0.38), and less O-alky C, carboxylic C, compared with feedstock. So the aliphaticity decreased, whereas aromaticity increased significantly, especially under severe conditions. It should be watchful for that the toxic compounds in hydrochar may induce environmental risk while it is amended into soil. The spent liquor with abundant nutrients could be used as a fertilizer. Further work is required for testing the application in soil.

摘要

将西瓜皮废料分别在 190°C 和 260°C 下水热碳化 1h、6h 和 12h。收集水热炭和废水中的液体，并对其性质进行检测。结果表明，水热炭的产率分别为新鲜和干燥物质的 2-5%和 46-95%。低温（190°C）有利于高转化率。与原料相比，水热炭具有更高的 C/N 比（22.19-26.86）、更多的烷基 C、芳基 C 和羰基 C，但较低的 H/C（0.98-1.22）和 O/C 比（0.13-0.38），以及更少的 O-烷基 C 和羧酸 C。因此，水热炭的脂肪族化合物减少，而芳香族化合物显著增加，尤其是在苛刻的条件下。应该注意的是，水热炭中的有毒化合物在被添加到土壤中时可能会引发环境风险。富含营养物质的废水中的液体可以用作肥料。需要进一步的工作来测试其在土壤中的应用。

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水热碳化法从西瓜皮中生产水炭。

Hydrochar production from watermelon peel by hydrothermal carbonization.

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