厌氧消化液和奶牛场粪便的水热碳化对能源回收和养分归宿的影响。

Hydrothermal carbonization of anaerobic digestate and manure from a dairy farm on energy recovery and the fate of nutrients.

机构信息

Zuckerberg Institute for Water Research, Blaustein Institutes for Desert Research, Sede Boqer Campus, Ben-Gurion University of the Negev, Midreshet Ben-Gurion 84990, Israel.

Agriculture Research Organization (ARO), Volcani Institute, Israel.

出版信息

Bioresour Technol. 2021 Aug;333:125164. doi: 10.1016/j.biortech.2021.125164. Epub 2021 Apr 18.

DOI:10.1016/j.biortech.2021.125164

PMID:33906016

Abstract

Hydrothermal carbonization (HTC) of raw and anaerobically digested (AD) manure with either water or whey was studied, with the goal of recovering energy and nutrients. Specifically, the impacts of HTC reaction temperature (180-240 °C), solid feedstock, and type of liquid on hydrochar quality and aqueous phase properties were tested. Of the hydrochars produced, the calorific value of whey-based hydrochar was the highest, (19.4 and 16.0 MJ/kg for manure and digestate, respectively). Overall, the net energy gain was higher for HTC of manure with whey (7.4-8.3 MJ/kg dry feedstock) and water (4.4-5.1 MJ/kg) compared to the combined AD-HTC process with whey (4.4-5.3 MJ/kg) and water (2.3-2.9 MJ/kg). Digestate-derived hydrochar contained up to 1.8% P, higher than manure-derived hydrochar (≤1.5%). Using whey as a liquid for HTC increased the aqueous-phase N-P-K concentrations up to 3,200, 410, and 7,900 mg/L, respectively, suggesting its potential use as a liquid fertilizer.

摘要

研究了用热水碳化（HTC）法对未经处理的和经厌氧消化（AD）处理的粪便分别与水或乳清进行碳化，目的是回收能源和养分。具体而言，测试了 HTC 反应温度（180-240°C）、固体原料和液体类型对水热炭质量和水相性质的影响。在所制备的水热炭中，基于乳清的水热炭的热值最高，分别为（19.4 和 16.0 MJ/kg，对应于粪便和消化液）。总体而言，与 AD-HTCC 工艺（乳清：4.4-5.3 MJ/kg；水：2.3-2.9 MJ/kg）相比，粪便与乳清（7.4-8.3 MJ/kg 干原料）和水（4.4-5.1 MJ/kg）的 HTC 工艺的净能量增益更高。源自消化液的水热炭中 P 的含量高达 1.8%，高于源自粪便的水热炭（≤1.5%）。用乳清作为 HTC 的液体可将水相中的 N-P-K 浓度分别提高至 3,200、410 和 7,900 mg/L，表明其具有作为液体肥料的潜力。

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厌氧消化液和奶牛场粪便的水热碳化对能源回收和养分归宿的影响。

Hydrothermal carbonization of anaerobic digestate and manure from a dairy farm on energy recovery and the fate of nutrients.

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