Integrated Wastewater Treatment for Bioresource and Bioenergy Recovery

生物资源和生物能源回收综合废水处理

• 批准号: RGPIN-2014-04949
• 负责人: Champagne, Pascale
• 金额: $ 2.04万
• 依托单位: Queen's University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2017
• 资助国家: 加拿大
• 起止时间: 2017-01-01 至 2018-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=636579
• 关键词: Integrated; Wastewater; Treatment; Bioresource; Bioenergy

INTRODUCTIONCanadian policies are driving the demand for the application of environmentally sound and sustainable practices in managing of our renewable resources. Environment Canada has proposed new Wastewater Systems Effluent Regulations (WSER) to monitor wastewater treatment facilities in Canada[1] and required upgrades to meet effluent discharge requirements are estimated at $10-13 billion, the majority of which will be borne by smaller municipalities[2]. The proposed research program aims to address these Canadian challenges using eco-engineered algal systems for municipal wastewater treatment. The research program will train 7 HQP (5 PhD and 2 MASc) who will acquire highly-desired technical skills in the area of applied environmental sustainability and assume leadership positions as wastewater treatment and bioresource management professionals.PROPOSED RESEARCH PROGRAMThe long-term objective is to develop a new evidence-based approach to designing eco-engineered wastewater treatment systems for Canadian climates with a focus on integrated bioresource management. The research conducted will use field-scale monitoring, controlled laboratory investigations and advanced statistical analysis methods to build the knowledge-base to achieve this overarching goal. In the short term, the program aims to develop a better understanding of the dynamic interactions influencing wastewater treatment and disinfection functions in wastewater stabilization ponds (WSPs) leading to more robust design models and guidelines that follow an evidence-based method; and investigate the integration of microalgae co-cultivation to municipal wastewater treatment infrastructure, as a sustainable wastewater treatment strategy with the potential for the downstream recovery of algal biofuels. RESEARCH OUTCOMES The research program will contribution to the state-of-the art in using passive systems to treat and polish wastewater in Canadian WSP systems. It is anticipated that the knowledge developed through the realization of these objectives can be transferred to industry so that future WSP design can follow an evidence-based method, leading to effective WSP systems. This will assist municipalities, faced with potentially costly wastewater infrastructure upgrade dilemmas for aging or inadequate WSP systems in meeting increasingly stringent federal wastewater effluent guidelines. and enable municipal with a focus on applied environmental sustainability. The research program will also address critical gaps that exist in the current state of knowledge with respect to the co-cultivation of algae using wastewater and the increase the potential for downstream recovery of biofuels in an integrated bioresource management approach.HQP TRAININGThe workforce in Canadian municipalities is aging and stricter regulatory guidelines for wastewater treatment effluents and the focus on integrating sustainable approaches have made the management of wastewater systems more complex. This has created a large demand for highly trained professionals with advanced technical and professional skills in Canadian municipalities and across the industry. The proposed research program will benefit Canada by training 7 HQP who will acquire highly-desired technical skills in in the development of alternate wastewater and waste management technologies and sustainable environmental approaches with a focus on integrated bioresource management, as well as skills in professional management in engineering. HQP will be ready to assume leadership positions as wastewater professionals in municipalities, regulatory agencies, provincial ministries and federal departments, and consulting firms, enhancing Canada’s capacity for influence in applied environmental sustainability.

引言加拿大的政策正在推动对环境无害和可持续的做法在管理我们的可再生资源的应用的需求。加拿大环境部提出了新的废水系统排放法规（WSER），以监测加拿大的废水处理设施[1]，并要求升级以满足污水排放要求，估计为100 - 130亿美元，其中大部分将由较小的城市承担[2]。拟议的研究计划旨在解决这些加拿大的挑战，使用生态工程藻类系统的城市污水处理。该研究计划将培养7名HQP（5博士和2硕士）谁将获得高度期望的技术技能，在应用环境的可持续发展领域，并承担领导地位，作为废水处理和生物资源管理的专业人士。加拿大气候的工程废水处理系统，重点是综合生物资源管理。所进行的研究将使用实地规模监测、受控实验室调查和先进的统计分析方法来建立知识库，以实现这一总体目标。在短期内，该方案旨在更好地了解影响废水稳定池中废水处理和消毒功能的动态相互作用，从而制定遵循循证方法的更稳健的设计模型和准则;并研究微藻共培养与城市污水处理基础设施的整合，这是一项可持续的废水处理战略，有可能在下游回收藻类生物燃料。研究成果该研究计划将有助于在加拿大WSP系统中使用被动系统处理和抛光废水的最先进技术。预计通过实现这些目标开发的知识可以转移到行业，以便未来的WSP设计可以遵循基于证据的方法，从而实现有效的WSP系统。这将有助于市政当局，面临着潜在的昂贵的废水基础设施升级的困境老化或不充分的水处理方案系统，以满足日益严格的联邦废水排放准则。并使市政重点放在应用环境的可持续性。该研究计划还将解决关键的差距，存在于目前的知识状态方面的共同，利用废水培养藻类，并在综合生物资源管理方法中增加下游生物燃料回收的潜力。HQP培训加拿大市政当局的劳动力正在老化，对废水处理废水的监管准则更加严格，对整合可持续方法的关注使得污水处理系统的管理更加复杂。这为加拿大各城市和整个行业创造了对训练有素的专业人员的大量需求，这些专业人员具有先进的技术和专业技能。拟议的研究计划将通过培训7名HQP使加拿大受益，他们将获得替代废水和废物管理技术和可持续环境方法的开发方面的高度期望的技术技能，重点是综合生物资源管理，以及工程专业管理技能。HQP将准备在市政当局、监管机构、省级部委和联邦部门以及咨询公司担任废水专业人员的领导职务，提高加拿大在应用环境可持续性方面的影响力。