Wolfugang Paul Venance, George Venance Lugomela, Verdiana Grace Masanja
{"title":"多多马市地下水人工补给可持续供水的水文模拟","authors":"Wolfugang Paul Venance, George Venance Lugomela, Verdiana Grace Masanja","doi":"10.22457/jmi.v21a01194","DOIUrl":null,"url":null,"abstract":"Groundwater is an important resource that supports the life of people and the surrounding ecosystem in the world. It is the prima y source of safe water to semi-arid areas characterized by limited surface water. In Af rica, water scarcity has been hitting major cities and towns. In Tanzania, Dodoma has lon g experienced shortages of water. Owing to the recent transfer of all significant off ices from Dar es Salaam to Dodoma, the City's population has drastically increased. The pr ima y source of water in the City is the Makutupora aquifer. The growing human population ha s resulted in high demand for water use, which has led to the overexploitation of gr undwater aquifer. Therefore, this study was carried out using a Modular finite-differ ence flow model (MODFLOW) to model artificial recharge products to replenish gro undwater in the Makutupora aquifer to ensure water supply sustainability in the City. Bef or simulation of the artificial recharge was done, groundwater storage was estimated using a vailable borehole data and GIS technique. The results indicated that the total gro undwater storage in the Makutupora aquifer was about 24.8 BCM (Billion Cubic Meters). The MODFLOW packages used include well package (WEL), General Head Boundary P ackage (GHB), Evapotranspiration package (EVT), Drain package (DR N), and Recharge Package (RCH). A total of 21 piezometers were used for mode l calibration. The statistical calibration was also done to validate the model's c alibrated parameters. After simulation of the steady-state reference period, the other fou stress periods were simulated, considering the projected population and water dema nd. The planned injection wells to the model in the first, second, third, and fourth t ansient state periods resulted in a safe yield of 168,857 m/day, 197,760 m/day, 360,000 m/day, and 600,430 m /day, respectively. The recommended artificial recharge s ource is water from the Kinyasungwe River that flows during rainfall time, generally fr om November to May. One of the W. P. Venance, G. V. Lugomela and V. G. Masanja 2 recorded years (2007) indicated a flow of up to 23. 646 Million Cubic Meters (MCM). The recommended artificial recharge is possible due to the aquifer's storage capacity of 247.84 Million Cubic Meters (MCM). Other flows in s mall streams within the well field were recommended in creating artificial recharge st ructures to add more water to the aquifer and natural recharge. Therefore, informatio n fr m this study could be used by engineers when constructing artificial engineering structures to replenish the water pumped from the Makutupora aquifer.","PeriodicalId":43016,"journal":{"name":"Journal of Applied Mathematics Statistics and Informatics","volume":"49 1","pages":""},"PeriodicalIF":0.3000,"publicationDate":"2021-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Hydrological Modeling of Artificial Recharge of Groundwater for Sustainable Water Supply in Dodoma City\",\"authors\":\"Wolfugang Paul Venance, George Venance Lugomela, Verdiana Grace Masanja\",\"doi\":\"10.22457/jmi.v21a01194\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Groundwater is an important resource that supports the life of people and the surrounding ecosystem in the world. It is the prima y source of safe water to semi-arid areas characterized by limited surface water. In Af rica, water scarcity has been hitting major cities and towns. In Tanzania, Dodoma has lon g experienced shortages of water. Owing to the recent transfer of all significant off ices from Dar es Salaam to Dodoma, the City's population has drastically increased. The pr ima y source of water in the City is the Makutupora aquifer. The growing human population ha s resulted in high demand for water use, which has led to the overexploitation of gr undwater aquifer. Therefore, this study was carried out using a Modular finite-differ ence flow model (MODFLOW) to model artificial recharge products to replenish gro undwater in the Makutupora aquifer to ensure water supply sustainability in the City. Bef or simulation of the artificial recharge was done, groundwater storage was estimated using a vailable borehole data and GIS technique. The results indicated that the total gro undwater storage in the Makutupora aquifer was about 24.8 BCM (Billion Cubic Meters). The MODFLOW packages used include well package (WEL), General Head Boundary P ackage (GHB), Evapotranspiration package (EVT), Drain package (DR N), and Recharge Package (RCH). A total of 21 piezometers were used for mode l calibration. The statistical calibration was also done to validate the model's c alibrated parameters. After simulation of the steady-state reference period, the other fou stress periods were simulated, considering the projected population and water dema nd. The planned injection wells to the model in the first, second, third, and fourth t ansient state periods resulted in a safe yield of 168,857 m/day, 197,760 m/day, 360,000 m/day, and 600,430 m /day, respectively. The recommended artificial recharge s ource is water from the Kinyasungwe River that flows during rainfall time, generally fr om November to May. One of the W. P. Venance, G. V. Lugomela and V. G. Masanja 2 recorded years (2007) indicated a flow of up to 23. 646 Million Cubic Meters (MCM). The recommended artificial recharge is possible due to the aquifer's storage capacity of 247.84 Million Cubic Meters (MCM). Other flows in s mall streams within the well field were recommended in creating artificial recharge st ructures to add more water to the aquifer and natural recharge. 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引用次数: 0
摘要
地下水是世界上支持人类生活和周边生态系统的重要资源。它是地表水有限的半干旱地区安全用水的主要来源。在非洲,水资源短缺一直困扰着主要城镇。在坦桑尼亚,多多马长期缺水。由于最近将所有重要的工厂从达累斯萨拉姆迁往多多马,该市的人口急剧增加。该市的主要水源是马库图波拉含水层。随着人口的不断增长,对水资源的需求越来越大,这就导致了地下水的过度开采。因此,本研究采用模块化有限差分流模型(MODFLOW)对人工补给产品进行建模,以补充Makutupora含水层的地下水,以确保城市供水的可持续性。在进行人工补给模拟之前,利用现有钻孔资料和GIS技术对地下水储量进行了估算。结果表明:Makutupora含水层总地下储水量约为248亿立方米。使用的MODFLOW包包括井包(WEL)、通用水头边界P包(GHB)、蒸散发包(EVT)、排水包(DR N)和补给包(RCH)。总共使用了21个压电计进行模式1校准。并进行了统计校正以验证模型的c校正参数。在模拟了稳态参考期之后,考虑到预计的种群数量和水分损失,对另外四个应力期进行了模拟。在第1、第2、第3和第4个非稳态阶段,该模型计划注入井的安全产量分别为168,857米/天、197,760米/天、36万米/天和600,430米/天。建议的人工补给水源是在降雨期间(通常从11月到5月)流动的Kinyasungwe河。W. P. Venance, G. V. Lugomela和V. G. Masanja 2记录年份之一(2007年)表明流量高达23。6.46亿立方米。由于含水层的储水量为24784万立方米(MCM),因此建议的人工补给是可能的。建议在井田内的其他溪流中建立人工补给设施,以向含水层添加更多的水和自然补给。因此,本研究的信息可以被工程师在建造人工工程结构以补充从Makutupora含水层抽水的水时使用。
Hydrological Modeling of Artificial Recharge of Groundwater for Sustainable Water Supply in Dodoma City
Groundwater is an important resource that supports the life of people and the surrounding ecosystem in the world. It is the prima y source of safe water to semi-arid areas characterized by limited surface water. In Af rica, water scarcity has been hitting major cities and towns. In Tanzania, Dodoma has lon g experienced shortages of water. Owing to the recent transfer of all significant off ices from Dar es Salaam to Dodoma, the City's population has drastically increased. The pr ima y source of water in the City is the Makutupora aquifer. The growing human population ha s resulted in high demand for water use, which has led to the overexploitation of gr undwater aquifer. Therefore, this study was carried out using a Modular finite-differ ence flow model (MODFLOW) to model artificial recharge products to replenish gro undwater in the Makutupora aquifer to ensure water supply sustainability in the City. Bef or simulation of the artificial recharge was done, groundwater storage was estimated using a vailable borehole data and GIS technique. The results indicated that the total gro undwater storage in the Makutupora aquifer was about 24.8 BCM (Billion Cubic Meters). The MODFLOW packages used include well package (WEL), General Head Boundary P ackage (GHB), Evapotranspiration package (EVT), Drain package (DR N), and Recharge Package (RCH). A total of 21 piezometers were used for mode l calibration. The statistical calibration was also done to validate the model's c alibrated parameters. After simulation of the steady-state reference period, the other fou stress periods were simulated, considering the projected population and water dema nd. The planned injection wells to the model in the first, second, third, and fourth t ansient state periods resulted in a safe yield of 168,857 m/day, 197,760 m/day, 360,000 m/day, and 600,430 m /day, respectively. The recommended artificial recharge s ource is water from the Kinyasungwe River that flows during rainfall time, generally fr om November to May. One of the W. P. Venance, G. V. Lugomela and V. G. Masanja 2 recorded years (2007) indicated a flow of up to 23. 646 Million Cubic Meters (MCM). The recommended artificial recharge is possible due to the aquifer's storage capacity of 247.84 Million Cubic Meters (MCM). Other flows in s mall streams within the well field were recommended in creating artificial recharge st ructures to add more water to the aquifer and natural recharge. Therefore, informatio n fr m this study could be used by engineers when constructing artificial engineering structures to replenish the water pumped from the Makutupora aquifer.