Microbial-Based Treatment of Kitchen Waste and Kitchen Wastewater: State-of-the-Art Progress and Emerging Research Prospects Related to Microalgae and Bacteria

IF 6.4 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Current Pollution Reports Pub Date : 2024-03-01 DOI:10.1007/s40726-024-00300-2
Zeyuan Wang, Yu Hong
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Abstract

Purpose of Review

This review intends to recapitulate the pretreatment measures of kitchen waste and kitchen wastewater (KWAKWW). Furthermore, this review also separately summarizes the ascendancy of using bacteria, microalgae and microalgae-bacteria consortia to treat KWAKWW, and corresponding emerging reinforcement strategies.

Recent Findings

Tremendous amount of KWAKWW are annually generated in the whole world. Wherein roughly 1.3 billion tons of kitchen waste (KW) are dumped and which were forecasted that would increase to about 2.5 billion tons by 2025. In addition, KWAKWW have the characteristics of high content of refractory organic matter (e.g., oil and cellulose), water (commonly outstrip 70%), and salt, which is difficult for bacteria or microalgae to treat. Consequently, it is essential to perform efficacious pretreatment measures to boost the efficiency of post-treatment. Utilizing bacteria, microalgae, and microalgae-bacteria consortia to treat KWAKWW is considered an efficient strategy due to ascendancy of puissant deep purification ability, excellent resource appreciation effect, and low operation costs. For instance, bacteria could produce leastways four kinds of products through KWAKWW; multiple studies indicated that microalgae generally could remove exceed 70% of nutrients of KWAKWW; one research manifested that microalgae-bacteria consortia retrenched 46% of the demand about dissolved oxygen (DO). Nevertheless, the above microbial treatment systems still have some inherent drawbacks such as poor impact resistance. Fortunately, metabolic engineering and other strengthen strategies can efficaciously upgrade the nutrient removal and resource utilization performance of bacteria, microalgae, and microalgae-bacteria consortia. For example, one research shown that the 1-butanol productivity of original bacteria remarkably increased by 93.48–171.74% draw support from metabolic engineering.

Summary

A total of 221 papers related to the content of this review were searched through Web of Science (http://apps.webofknowledge.com). What is more, specific data that emerged on this review were all extracted from the above-searched papers. The mechanisms and effect of hydrothermal carbonization (HTC) and other four pretreatment measures are introduced by this review in detail. The preponderance of utilizing bacteria, microalgae, and microalgae-bacteria consortia to treat KWAKWW are comprehensively evaluated mainly from the perspectives of nutrient purification and resource utilization. Four state-of-the-art strengthen strategies like machine learning are then introduced. Finally, the current challenges in KWAKWW treatment are summarized from five aspects, and future concrete improvement directions are also provided. Overall, this review outlines the state-of-the-art research progress of KWAKWW treatment by bacteria and microalgae and tenders corresponding implementation schemes for improving KWAKWW treatment effect.

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基于微生物的厨房垃圾和厨房废水处理:与微藻类和细菌有关的最新进展和新兴研究前景
综述目的本综述旨在概述餐厨垃圾和餐厨废水(KWAKWW)的预处理措施。此外,本综述还分别总结了利用细菌、微藻和微藻-细菌联合体处理厨房垃圾和厨房废水的进展,以及相应的新兴强化策略。据预测,到 2025 年,这一数字将增至约 25 亿吨。此外,厨余垃圾还具有难处理有机物(如油脂和纤维素)、水分(通常超过 70%)和盐分含量高的特点,细菌或微藻类很难对其进行处理。因此,必须采取有效的预处理措施,以提高后处理的效率。利用细菌、微藻和微藻-细菌联合体处理 KWAKWW 被认为是一种有效的策略,因为它们具有强大的深度净化能力、出色的资源增值效果和较低的运营成本。例如,细菌可以通过 KWAKWW 生产至少四种产品;多项研究表明,微藻一般可去除 KWAKWW 中超过 70% 的营养物质;一项研究表明,微藻-细菌联合体可减少 46% 的溶解氧需求。尽管如此,上述微生物处理系统仍存在一些固有缺陷,如抗冲击性差。幸运的是,代谢工程和其他强化策略可以有效提高细菌、微藻和微藻-细菌联合体的营养物去除和资源利用性能。例如,一项研究表明,在代谢工程的支持下,原始细菌的 1-丁醇生产率显著提高了 93.48-171.74%。摘要通过科学网(http://apps.webofknowledge.com)共检索到与本综述内容相关的论文 221 篇。此外,本综述中出现的具体数据均摘自上述检索论文。本综述详细介绍了热液碳化(HTC)和其他四种预处理措施的机理和效果。主要从营养物质净化和资源利用的角度,全面评估了利用细菌、微藻和微藻-细菌联合体处理 KWAKWW 的优势。然后介绍了机器学习等四种最先进的强化策略。最后,从五个方面总结了当前 KWAKWW 处理所面临的挑战,并提出了未来的具体改进方向。总之,本综述概述了利用细菌和微藻处理 KWAKWW 的最新研究进展,并为提高 KWAKWW 处理效果提出了相应的实施方案。
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来源期刊
Current Pollution Reports
Current Pollution Reports Environmental Science-Water Science and Technology
CiteScore
12.10
自引率
1.40%
发文量
31
期刊介绍: Current Pollution Reports provides in-depth review articles contributed by international experts on the most significant developments in the field of environmental pollution.By presenting clear, insightful, balanced reviews that emphasize recently published papers of major importance, the journal elucidates current and emerging approaches to identification, characterization, treatment, management of pollutants and much more.
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