Towards a high-quality fertilizer based on algae residues treated via hydrothermal carbonization. Trends on how process parameters influence inorganics

IF 13.1 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Biochar Pub Date : 2024-07-08 DOI:10.1007/s42773-024-00357-8

Daniela Moloeznik Paniagua, Lina Maja Marie Krenz, Judy A. Libra, Nathalie Korf, Vera Susanne Rotter

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Abstract

The use of beach-cast macroalgae as a fertilizer (F) or soil amendment (SA) is coming back into focus, due to its highly efficient transformation of CO₂, nutrients, salts and minerals from its aqueous surroundings into biomass. This research studied the hydrothermal carbonization (HTC) of Fucus vesiculosus macroalgae to hydrochar and evaluated its feasibility for use in soil applications. F. vesiculosus was submitted to HTC following a full factorial design of experiments with three HTC process parameters varied to assess their impact on the hydrochars: temperature (T: 160, 190, 220 °C), solid content (%So: 20, 35%), and process water recirculation (PWrec: yes and no). In general, F. vesiculosus and its hydrochars were rich in nutrients, but also contained regulated heavy metals. Investigation of the partitioning behavior of inorganic elements between the hydrochars and process water showed that heavy metals like Cr, Pb, Co and Cu tended to accumulate in the hydrochar, unaffected by HTC conditions. Nutrients such as P, N, B, and Mn were primarily found in the hydrochar and could be partially influenced to transfer to process water by changing %So and T. The correlation between the mass fractions of 22 elements in the hydrochar and HTC process parameters was studied. T was the most influential parameter, showing a significant positive correlation for eleven elements. %So and PWrec showed inconsistent effects on different elements. When process water was recirculated, some elements decreased (Ca, Cd, Fe) while others increased (K, Na, B, N) in the hydrochar. Assessment against various regulations and standards for F and SA revealed that F. vesiculosus complied with Cd limit values for most rules including the EURF and B, and was regulated only in the RAL for SA, over the limit value. In contrast, the limit value of Cd for both F and SA applications was surpassed in the 13 hydrochars. The contents of N, P, K, S, and Na in the feedstock and hydrochars complied with European F and SA rules, while they were too high for German rules on SA. The other limits for F rules were achieved (under certain HTC process parameters) except for P (lower than the requirements in F for F. vesiculosus and its hydrochars).

Graphical Abstract

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利用经热液碳化处理的藻类残渣制造优质肥料。工艺参数对无机物的影响趋势

由于滩涂大型藻类能高效地将水环境中的二氧化碳、养分、盐分和矿物质转化为生物质，因此其作为肥料（F）或土壤改良剂（SA）的用途再次受到关注。本研究对褐藻（Fucus vesiculosus）大型藻类的水热碳化（HTC）过程进行了研究，并评估了其在土壤应用中的可行性。在对 F. vesiculosus 进行水热碳化时，采用了全因子实验设计，改变了三个水热碳化工艺参数，以评估它们对水炭的影响：温度（T：160、190、220 °C）、固体含量（%So：20、35%）和工艺水再循环（PWrec：是和否）。总体而言，F. vesiculosus 及其水合赭石富含营养物质，但也含有受管制的重金属。无机元素在水包炭和工艺用水之间的分配行为调查显示，重金属（如铬、铅、钴和铜）倾向于在水包炭中积累，不受 HTC 条件的影响。养分（如 P、N、B 和 Mn）主要存在于水包炭中，可以通过改变 %So 和 T 来部分影响其向工艺水的转移。T 是影响最大的参数，与 11 种元素呈显著正相关。%So 和 PWrec 对不同元素的影响不一致。当工艺水再循环时，水炭中的某些元素会减少（钙、镉、铁），而其他元素则会增加（钾、鈉、硼、氮）。根据有关 F 和 SA 的各种规定和标准进行的评估显示，F. vesiculosus 符合大多数规定（包括 EURF 和 B）中的镉限值，仅在 SA 的 RAL 中受到规定，超过了限值。相比之下，13 种水螯合态氮和 SA 的镉含量都超过了限值。原料和水煤浆中 N、P、K、S 和 Na 的含量符合欧洲焚烧和脱硫规则，但在德国脱硫规则中则过高。除 P 外（低于 F. vesiculosus 及其水煤浆的 F. 要求），其他均达到了 F 规则的限制（在某些 HTC 工艺参数下）。

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来源期刊

Biochar Multiple-

CiteScore

18.60

自引率

10.20%

发文量

期刊介绍： Biochar stands as a distinguished academic journal delving into multidisciplinary subjects such as agronomy, environmental science, and materials science. Its pages showcase innovative articles spanning the preparation and processing of biochar, exploring its diverse applications, including but not limited to bioenergy production, biochar-based materials for environmental use, soil enhancement, climate change mitigation, contaminated-environment remediation, water purification, new analytical techniques, life cycle assessment, and crucially, rural and regional development. Biochar publishes various article types, including reviews, original research, rapid reports, commentaries, and perspectives, with the overarching goal of reporting significant research achievements, critical reviews fostering a deeper mechanistic understanding of the science, and facilitating academic exchange to drive scientific and technological development.