Gärrestaufbereitung als Beitrag zur Nährstoffentfrachtung von Überschussregionen – Kosten und Treibhausgasemissionen

Q4 Agricultural and Biological Sciences

Landtechnik Pub Date : 2021-05-17 DOI:10.15150/LT.2021.3266

U. Roth, S. Wulf, Maximilian Fechter, Carsten Herbes, Johannes Dahlin

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Abstract

The processing of slurry and biogas digestate reduces their volume and separates nutrient flows, especially in regions with nutrient surpluses. This makes it possible to cut transport costs for supra-regional utilisation and to configure tailor-made products for different customers. However, the additional capital and equipment costs can usually only be compensated by revenue from the CHP bonus for the use of excess heat from combined heat and power systems in biogas plants, unless high prices can be achieved for the products outside agriculture. The use of heat also has a considerable impact on the greenhouse gas emissions associated with processing. If reference emissions are charged because the heat is no longer available to replace fossil resources, this far outweighs savings from transport. However, it is not possible to draw general conclusions due to the diverse plant-specific conditions (amount and type of nutrient surplus, transport distance, heat availability, size of the plant, etc.). In individual cases, the processing of biogas digestate may well be economically viable, especially in the case of long transport distances.

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据我所知，这最终没有浪费

泥浆和沼气消化液的处理减少了它们的体积并分离了营养流，尤其是在营养过剩的地区。这使得可以降低超地区使用的运输成本，并为不同的客户配置量身定制的产品。然而，额外的资本和设备成本通常只能通过热电联产奖金的收入来补偿，因为热电联产奖金用于沼气厂的热电联产系统，除非农业以外的产品价格高昂。热量的使用也对与加工相关的温室气体排放产生了相当大的影响。如果因为热量不再可用于替代化石资源而对参考排放量进行收费，那么这远远超过了运输带来的节约。然而，由于不同的植物特定条件（营养过剩的数量和类型、运输距离、热量可用性、植物大小等），不可能得出一般结论。在个别情况下，沼气消化物的加工在经济上可能是可行的，尤其是在长运输距离的情况下。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Landtechnik Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

16 weeks