{"title":"混合人工湿地处理乳制品和城市污水的水质评价。","authors":"Singh K Krishna, Vaishya C Rakesh","doi":"10.1002/wer.70024","DOIUrl":null,"url":null,"abstract":"<p><p>The world's most pressing problem is water shortage, which is made worse by fast industrialization and urbanization, especially in places like India where untreated effluent presents serious threats to human health and the environment. In order to treat dairy and municipal wastewater, this study assesses the efficacy of a two-stage hybrid constructed wetland (CW) system. The WWQI is the primary focus of this evaluation over a range of mixing ratios. Before and after treatment, many physicochemical parameters were examined, including pH, total suspended solids (TSS), chemical oxygen demand (COD), biochemical oxygen demand (BOD), total phosphorus (TP), ammonia nitrogen ( <math> <semantics> <mrow><msub><mi>NH</mi> <mn>3</mn></msub> <mo>-</mo> <mi>N</mi></mrow> <annotation>$$ {NH}_3-N $$</annotation></semantics> </math> ), and nitrate nitrogen ( <math> <semantics> <mrow><msub><mi>NO</mi> <mn>3</mn></msub> <mo>-</mo> <mi>N</mi></mrow> <annotation>$$ {NO}_3-N $$</annotation></semantics> </math> ). The hybrid CWs system dramatically lowers pollutant concentrations, according to the results, with combinations containing higher amounts of MWW showing the best results. The WWQI values, which change from \"unfit for any uses\" in untreated DWW to \"excellent\" quality in treated MWW, show these advancements. The results highlight the potential of hybrid CWs as an effective and sustainable wastewater treatment method, especially when it comes to maximizing the proportion of dairy to municipal wastewater. This study adds to our knowledge of efficient wastewater treatment techniques and highlights the significance of incorporating eco-friendly technologies to tackle water scarcity issues. PRACTITIONER POINTS: Hybrid Constructed Wetlands (HCWs) are effective in removing TSS, BOD, COD, TP, ammonia nitrogen, and nitrate nitrogen from dairy and municipal wastewater. On the basis of HCWs performance determine the Wastewater Quality Index (WWQI) for four different ratio proportions of dairy and municipal wastewater. This index is more useful for water quality status determination and treated water reuse for various purposes. This also benefits sustainable treatment technology and contributes to achieving SDGs.</p>","PeriodicalId":23621,"journal":{"name":"Water Environment Research","volume":"97 2","pages":"e70024"},"PeriodicalIF":1.9000,"publicationDate":"2025-02-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Wastewater quality evaluation in terms of wastewater quality index using hybrid constructed wetland for treatment of dairy and municipal wastewater.\",\"authors\":\"Singh K Krishna, Vaishya C Rakesh\",\"doi\":\"10.1002/wer.70024\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>The world's most pressing problem is water shortage, which is made worse by fast industrialization and urbanization, especially in places like India where untreated effluent presents serious threats to human health and the environment. In order to treat dairy and municipal wastewater, this study assesses the efficacy of a two-stage hybrid constructed wetland (CW) system. The WWQI is the primary focus of this evaluation over a range of mixing ratios. Before and after treatment, many physicochemical parameters were examined, including pH, total suspended solids (TSS), chemical oxygen demand (COD), biochemical oxygen demand (BOD), total phosphorus (TP), ammonia nitrogen ( <math> <semantics> <mrow><msub><mi>NH</mi> <mn>3</mn></msub> <mo>-</mo> <mi>N</mi></mrow> <annotation>$$ {NH}_3-N $$</annotation></semantics> </math> ), and nitrate nitrogen ( <math> <semantics> <mrow><msub><mi>NO</mi> <mn>3</mn></msub> <mo>-</mo> <mi>N</mi></mrow> <annotation>$$ {NO}_3-N $$</annotation></semantics> </math> ). The hybrid CWs system dramatically lowers pollutant concentrations, according to the results, with combinations containing higher amounts of MWW showing the best results. The WWQI values, which change from \\\"unfit for any uses\\\" in untreated DWW to \\\"excellent\\\" quality in treated MWW, show these advancements. The results highlight the potential of hybrid CWs as an effective and sustainable wastewater treatment method, especially when it comes to maximizing the proportion of dairy to municipal wastewater. This study adds to our knowledge of efficient wastewater treatment techniques and highlights the significance of incorporating eco-friendly technologies to tackle water scarcity issues. PRACTITIONER POINTS: Hybrid Constructed Wetlands (HCWs) are effective in removing TSS, BOD, COD, TP, ammonia nitrogen, and nitrate nitrogen from dairy and municipal wastewater. On the basis of HCWs performance determine the Wastewater Quality Index (WWQI) for four different ratio proportions of dairy and municipal wastewater. This index is more useful for water quality status determination and treated water reuse for various purposes. 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引用次数: 0
摘要
世界上最紧迫的问题是水资源短缺,而快速的工业化和城市化使这一问题变得更加严重,特别是在印度这样的地方,未经处理的污水对人类健康和环境构成严重威胁。为了处理乳制品和城市污水,本研究评估了两级混合人工湿地(CW)系统的效果。WWQI是对一系列混合比率进行评估的主要焦点。在处理前后检测了pH、总悬浮物(TSS)、化学需氧量(COD)、生化需氧量(BOD)、总磷(TP)、氨氮(nh3 - N $$ {NH}_3-N $$)和硝态氮(no3 - N $$ {NO}_3-N $$)等理化参数。结果表明,混合化粪池系统显著降低了污染物浓度,其中含有较多MWW的组合效果最好。WWQI值从未经处理的DWW的“不适合任何用途”变为经过处理的MWW的“优秀”质量,显示了这些进步。研究结果强调了混合化粪池作为一种有效和可持续的污水处理方法的潜力,特别是在最大限度地提高乳制品在城市污水中的比例方面。这项研究增加了我们对高效废水处理技术的了解,并强调了采用环保技术解决水资源短缺问题的重要性。从业者观点:混合人工湿地(HCWs)在去除乳制品和城市废水中的TSS, BOD, COD, TP,氨氮和硝酸盐氮方面是有效的。在污水处理性能的基础上,确定了四种不同配比的乳业废水与城市污水的水质指数。该指标对水质状况的测定和处理后的水用于各种用途的回用更为有用。这也有利于可持续处理技术,有助于实现可持续发展目标。
Wastewater quality evaluation in terms of wastewater quality index using hybrid constructed wetland for treatment of dairy and municipal wastewater.
The world's most pressing problem is water shortage, which is made worse by fast industrialization and urbanization, especially in places like India where untreated effluent presents serious threats to human health and the environment. In order to treat dairy and municipal wastewater, this study assesses the efficacy of a two-stage hybrid constructed wetland (CW) system. The WWQI is the primary focus of this evaluation over a range of mixing ratios. Before and after treatment, many physicochemical parameters were examined, including pH, total suspended solids (TSS), chemical oxygen demand (COD), biochemical oxygen demand (BOD), total phosphorus (TP), ammonia nitrogen ( ), and nitrate nitrogen ( ). The hybrid CWs system dramatically lowers pollutant concentrations, according to the results, with combinations containing higher amounts of MWW showing the best results. The WWQI values, which change from "unfit for any uses" in untreated DWW to "excellent" quality in treated MWW, show these advancements. The results highlight the potential of hybrid CWs as an effective and sustainable wastewater treatment method, especially when it comes to maximizing the proportion of dairy to municipal wastewater. This study adds to our knowledge of efficient wastewater treatment techniques and highlights the significance of incorporating eco-friendly technologies to tackle water scarcity issues. PRACTITIONER POINTS: Hybrid Constructed Wetlands (HCWs) are effective in removing TSS, BOD, COD, TP, ammonia nitrogen, and nitrate nitrogen from dairy and municipal wastewater. On the basis of HCWs performance determine the Wastewater Quality Index (WWQI) for four different ratio proportions of dairy and municipal wastewater. This index is more useful for water quality status determination and treated water reuse for various purposes. This also benefits sustainable treatment technology and contributes to achieving SDGs.
期刊介绍:
Published since 1928, Water Environment Research (WER) is an international multidisciplinary water resource management journal for the dissemination of fundamental and applied research in all scientific and technical areas related to water quality and resource recovery. WER''s goal is to foster communication and interdisciplinary research between water sciences and related fields such as environmental toxicology, agriculture, public and occupational health, microbiology, and ecology. In addition to original research articles, short communications, case studies, reviews, and perspectives are encouraged.
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