化学强化处理湿地以改善萨克拉门托-圣华金三角洲的水质和减轻地面沉降:成本和设计考虑

Q3 Agricultural and Biological Sciences San Francisco Estuary and Watershed Science Pub Date : 2019-09-19 DOI:10.15447/sfews.2019v17iss3art1
P. Bachand, T. Kraus, W. Horwath, Nathan R. Hatch, S. Bachand
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引用次数: 2

摘要

作者:Bachand, Philip a.m.;克劳斯,塔玛拉·e·c;威廉·霍沃斯;Nathan R. Hatch;摘要:作为加州输水系统的重要组成部分,萨克拉门托-圣华金三角洲(Delta)的水质恶化和地表沉降威胁着其生存能力。目前通过三角洲泥炭土进行的灌溉排水影响饮用水处理,并与汞运输有关,可能造成生态和公共健康问题。为了经济有效地处理三角洲下沉岛屿的农业排水,以减少饮用水质量成分的出口,并通过增加减少地面沉降,我们研究了混合混凝处理湿地系统,称为化学强化处理湿地(CETWs)。我们提供成本估算和设计建议,以帮助更广泛地实现该技术。在20年的时间跨度内,使用总年化成本分析,我们估计每英亩英尺(ac - ft)水处理成本为602美元至747美元,每公斤溶解有机碳(DOC)去除成本为36美元至70美元,具体取决于3英亩小型CETW系统的源水DOC浓度。对于面积为3500 - 14000英亩的大型污水处理系统,处理水的成本降至每平方英尺108 - 239美元,去除每公斤DOC的成本降至11 - 14美元。我们估计,在4天的水力滞留时间(HRT)系统中,CETW系统的占地面积约为处理面积的3%,而在1天的HRT系统中,这一面积将减少到不到1%。CETWs最终解决了三角洲地区的几个关键内部问题,同时在每碳去除量的基础上,使水处理成本与其他类似规模的现有处理技术相比具有竞争力。CETWs提供了一个可靠的系统来减少外排DOC和汞负荷,并且它们还提供了沉积物增加的额外好处。系统成本和处理效果在很大程度上取决于流入水源的水条件、土地可用性和其他实际问题。为了保持低成本和高去除效果,湿地设计特征需要根据具体地点进行评估。
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Chemically Enhanced Treatment Wetland to Improve Water Quality and Mitigate Land Subsidence in the Sacramento‒San Joaquin Delta: Cost and Design Considerations
Author(s): Bachand, Philip A. M.; Kraus, Tamara E. C.; Horwarth, William R.; Hatch, Nathan R.; Bachand, Sandra M. | Abstract: Water quality impairment and land surface subsidence threaten the viability of the Sacramento–San Joaquin Delta (Delta), a critical component of California’s water conveyance system. Current-day irrigation drainage through Delta island peat soils affects drinking water treatment and is linked to mercury transport, potentially posing both ecological and public health concerns. To cost-effectively treat agricultural drainage water from subsided Delta islands to reduce the export of drinking Water Quality Constituents of Concern and mitigate land subsidence through accretion, we studied hybrid coagulation-treatment wetland systems, termed Chemically Enhanced Treatment Wetlands (CETWs). We provide cost estimates and design recommendations to aid broader implementation of this technology. Over a 20-year horizon using a Total Annualized Cost analysis, we estimate treatment costs of $602 to $747 per acre-foot (ac‑ft) water treated, and $36 to $70 per kg dissolved organic carbon (DOC) removed, depending upon source water DOC concentrations for a small 3-acre CETW system. For larger CETW systems scaled for island sizes of 3,500 to 14,000 acres, costs decrease to $108 to $239 per ac-ft water treated, and $11 to $14 per kg DOC removed. We estimated the footprints of CETW systems to be approximately 3% of the area being treated for 4-day hydraulic retention time (HRT) systems, but they would decrease to less than 1% for 1-day HRT systems. CETWs ultimately address several of the Delta’s key internal issues while keeping water treatment costs competitive with other currently available treatment technologies at similar scales on a per-carbon-removed basis. CETWs offer a reliable system to reduce out-going DOC and mercury loads, and they provide the additional benefit of sediment accretion. System costs and treatment efficacy depend significantly on inflow source water conditions, land availability, and other practical matters. To keep costs low and removal efficacy high, wetland design features will need site-specific evaluation.
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来源期刊
San Francisco Estuary and Watershed Science
San Francisco Estuary and Watershed Science Environmental Science-Water Science and Technology
CiteScore
2.90
自引率
0.00%
发文量
24
审稿时长
24 weeks
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