A Practical Approach for Estimating Influent-Effluent Mass Flow Differences in Dairy Manure-Based Anaerobic Co-Digestion Systems

IF 0.8 4区农林科学 Q4 AGRICULTURAL ENGINEERING

Applied Engineering in Agriculture Pub Date : 2022-01-01 DOI:10.13031/aea.14180

R. Labatut, J. W. Morris, C. Gooch

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引用次数: 0

Abstract

HighlightsThree rigorous, methods for estimating influent-effluent mass flow differences due to biogas generation in manure-based anaerobic co-digestion systems are presented.The methods developed reveal that influent-effluent mass flow differences are driven by waste biochemical conversion - biogas water vapor content is insignificant.A simple, input-based method produced comparable results to two, more complex, output-based methods, when tested using 12 months of data collected from three dairy-based anaerobic co-digestion systems.Abstract.During co-digestion of dairy manure and off-farm organic waste in farm anaerobic co-digestion (AcoD) systems, the process’s conversion of biodegradable organics to biogas reduces the volumetric mass (or mass-volume) of the effluent discharged compared to the mass-volume fed. In this study, we present three methods for estimating the mass-flow difference between influent and effluent due to conversion to biogas based on widely accepted, rigorously applied, biological and engineering principles. Monthly operating data from three full-scale AcoD systems, operated under different conditions for a full year were used to compare results using the three calculation methods. Results revealed that the predictions of influent mass flow loss obtained using a simplified input-based method primarily based on influent volumetric flow rates and biodegradability data were in good agreement with those obtained using more accurate, real-time data, namely methane concentration and biogas production. For AcoD systems adding off-site wastes at around 30% or less of the total influent volatile solids (VS), the estimated reduction in effluent flow was in the range of 3% or less. In one case, for VS additions up to approximately 60% of the AcoD system’s influent load, the reduction was 12%. Accepted fundamental water vapor relationships were also applied to biogas generation. Biogas water vapor loses were estimated to comprise approximately 0.2% of the total biogas mass-volume typically produced. Since in most anaerobic digestion systems, biogas condensate water is returned to the influent, this insignificant amount may be ignored. Keywords: Anaerobic, Biogas, Co-digestion, Dairy manure, Digestion, Food waste, Volume-mass flow conversion.

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估算奶牛粪便厌氧共消化系统进出水质量流量差异的实用方法

提出了三种严格的方法来估计由于粪便厌氧共消化系统中沼气产生的进水-流出质量流量差异。所开发的方法表明，进水-出水质量流量差异是由废物生化转化驱动的，沼气水蒸气含量微不足道。一种简单的、基于投入的方法与两种更复杂的、基于产出的方法产生了可比较的结果，当使用从三个基于乳制品的厌氧共消化(AcoD)系统中收集的12个月的数据进行测试时。该工艺将可生物降解有机物转化为沼气，与质量-体积进料相比，减少了排放的废水的体积质量(或质量-体积)。在本研究中，我们基于广泛接受的、严格应用的生物学和工程原理，提出了三种方法来估计由于转化为沼气而导致的进水和出水的质量流量差。使用三个全尺寸AcoD系统在不同条件下运行一整年的月度运行数据来比较三种计算方法的结果。结果表明，使用简化的基于输入的方法(主要基于进水体积流量和生物降解性数据)获得的进水质量流动损失预测与使用更准确的实时数据(即甲烷浓度和沼气产量)获得的预测结果吻合良好。对于AcoD系统添加的场外废物约占总流入挥发性固体(VS)的30%或更少，估计流出流量减少在3%或更少的范围内。在一种情况下，当VS添加量达到AcoD系统进水负荷的60%左右时，降低了12%。公认的基本水蒸气关系也适用于沼气的产生。据估计，沼气水蒸气损失约占通常产生的沼气总质量-体积的0.2%。由于在大多数厌氧消化系统中，沼气凝结水被返回进水，所以这个微不足道的量可以忽略不计。关键词:厌氧，沼气，共消化，牛粪，消化，食物垃圾，体积-质量转换

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来源期刊

Applied Engineering in Agriculture 农林科学-农业工程

CiteScore

1.80

自引率

11.10%

发文量

审稿时长

6 months

期刊介绍： This peer-reviewed journal publishes applications of engineering and technology research that address agricultural, food, and biological systems problems. Submissions must include results of practical experiences, tests, or trials presented in a manner and style that will allow easy adaptation by others; results of reviews or studies of installations or applications with substantially new or significant information not readily available in other refereed publications; or a description of successful methods of techniques of education, outreach, or technology transfer.