Optimization and Implementation of an Innovative Biologix Microbe Consortium for Bioremediation of Municipal Wastewater

用于城市废水生物修复的创新 Biologix 微生物联盟的优化和实施

• 批准号: CCARD-2022-00227
• 负责人: Sheikhzadeh, Mehdi
• 金额: $ 1.82万
• 依托单位: Lambton College of Applied Arts and Technology
• 依托单位国家: 加拿大
• 项目类别: CCI Applied Research and Development Grants
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=743725
• 关键词: Optimization; Implementation; Innovative; Biologix; Microbe

Delta's innovative BioLogixr bioremediation process transforms contaminated water using innovative biologics and chemistry returning contaminated sites to their original state. The BioLogixr microbe consortium consists of aerobic and facultative anaerobic species which provide the necessary broad spectrum remediation activity required for the harsh conditions of sewer treatment plants as well as in situ raw sewage spill response. The consortium is an easy-to-use product that can be applied directly to raw sewage spills and discharge, lagoons, lift stations, and industrial wastewater and sewage treatment plants. The proposed project in collaboration with Lambton College's Lambton Water Centre and Delta Remediation will aim to determine the ideal growth conditions for Delta's BioLogixr microbe consortium and evaluate the potential for a more effective breakdown of harmful fats, oils, and greases among other pollutants present in wastewater effluents from different sources. Furthermore, this study intends to compare the efficiency of the current biological wastewater treatment in Southwestern, Ontario, wastewater treatment plant to the innovative treatment using Delta's unique microbial consortium. The goals of proposed project are to understand the current biological treatment mechanisms for the removal of wastewater pollutants and their efficacy, determine optimal growth conditions for Delta's BioLogixr microbe consortium, and evaluate the capacity of Delta's BioLogixr microbe consortium to treat different wastewater pollutants for a variety of wastewater sources and compare the developed BioLogixr treatment to the conventional industrial treatment. The implementation of a new microbial consortium used as a tertiary treatment or as an additive to secondary treatment would be advantageous to Canada's wastewater industry. Our environment will sustain many benefits from a microbial consortium that includes micro-organisms that are able to sequester heavy metals that are dangerous to the nature surrounding us.

台达创新的BioLogixr生物修复工艺利用创新的生物制剂和化学物质转化受污染的水，使受污染的场地恢复原状。BioLogixr微生物联合体由需氧和兼性厌氧物种组成，可为污水处理厂的恶劣条件以及现场原污水泄漏反应提供必要的广谱补救活动。该联盟是一个易于使用的产品，可直接应用于原污水泄漏和排放，泻湖，提升站，工业废水和污水处理厂。 拟议项目与兰顿学院的兰顿水中心和三角洲整治合作，旨在确定三角洲的BioLogixr微生物财团的理想生长条件，并评估更有效地分解有害脂肪，油和油脂等污染物的潜力，这些污染物存在于不同来源的废水中。此外，本研究旨在比较目前的生物污水处理在西南部，安大略，污水处理厂的效率，创新的处理使用三角洲的独特的微生物财团。拟议项目的目标是了解目前的生物处理机制，用于去除废水污染物及其功效，确定Delta的BioLogixr微生物财团的最佳生长条件，并评估Delta的BioLogixr微生物财团处理各种废水来源的不同废水污染物的能力，并将开发的BioLogixr处理与传统的工业处理进行比较。采用一种新的微生物联合体作为三级处理或二级处理的添加剂，将有利于加拿大的废水工业。我们的环境将从微生物财团中获得许多好处，其中包括能够螯合对我们周围的自然环境有害的重金属的微生物。