Your search keyword '"Tran Thi Thuy Huong"' showing total 8 results

1. Transport trend of recent sediment within the nearshore seabed of Hai Hau, Nam Dinh province, southwest Red River Delta

Author

Mai Duc Dong, Emmanuel Poizot, Do Huy Cuong, Le Duc Anh, Duong Quoc Hung, Tran Thi Thuy Huong, Nguyen Van Diep, and Ngo Bich Huong

Subjects

sediment trend, Red River Delta, end member modeling analysis, grain size trend analysis, Hai Hau coast, Science

Published

2023

2. Characteristics of heavy metals in surface sediments of the Van Don-Tra Co coast, northeast Vietnam

Author

Nguyen Nhu, Trung, Bui Van, Nam, Le, Duc-Anh, Tran Thi, Thuy Huong, Nguyen, Thanh-Duong, Dang Xuan, Tung, Tran, Hoai-Nam, Sang, Pham Nhu, Saiyad Musthafa, Mohamed, and Duong, Van-Hao

Published

2024

3. Research of fresh/salt water in Upper-middle Pleistocene (qp\(_{2–3}\)) in Bac Lieu Province

Author

Trinh, Hoai Thu, primary, Tran, Thi Thuy Huong, additional, Pham, Ba Quyen, additional, Le, Duc Anh, additional, Mai, Duc Dong, additional, Nguyen, Manh Khai, additional, Tran, Thi Minh Hang, additional, and Nguyen, Huyen Trang, additional

Published

2024

4. HORIZONTAL CIRCULAR PUMPING WELLS TO MINIMIZE SALINE WATER UPCONING: WATER RESOURCE DEVELOPMENT MEASURE FOR TROPICAL SAVANNA CLIMATIC NINH THUAN AREA, VIETNAM

Author

Тинь Хоа Тxу, Ренат Белалович, Nguyen Van Hoang, Trinh Hoai Thu, Shakirov, Renat Belalovich, Syrbu, Nadezhda Sergeevna, Tran Thi Thuy Huong, and Lee, Natalya Sergeevna

Subjects

саванны, конечные элементы, saline water upconing, dynamic programming, tropical savannah climate, Materials Science (miscellaneous), электронные ресурсы, горизонтальные кольцевые скважины, соленые воды, horizontal circular well, Management, Monitoring, Policy and Law, Geotechnical Engineering and Engineering Geology, Fuel Technology, finite element, подъем, Economic Geology, тропический климат, динамическое программирование, Waste Management and Disposal

Abstract

Актуальность. Южный центральный регион Вьетнама, включая провинцию Ниньтхуан, имеет тропический климат саванны и сильно страдает от засухи и засоления воды. В последние годы провинция Ниньтхуан столкнулась с сильными засухами изза увеличения частоты и интенсивности экстремальных погодных условий, нехватки воды и солености грунтовых вод. Распределение пресных и соленых грунтовых вод на равнине Ниньтхуан имеет три зоны: 1) зона всего профиля со свежими грунтовыми водами; 2) зона верхнего профиля со свежими грунтовыми водами и нижнего профиля с засоленными грунтовыми водами и 3) зона всего профиля с засоленными грунтовыми водами. Отводящие сооружения подземных вод в первой зоне уязвимы к засолению из-за окружающей соленой воды, а во второй зоне уязвимы к восходящей соленой воде снизу. Основная цель исследования: определить оптимальную откачку грунтовых вода с учетом заданного снижения уровня воды, показать, что горизонтальные кольцевые скважины оптимальны для минимизации подъёма соленой воды, определить зависимость между высотой подъёма соленой воды и радиусом горизонтальной скважины. Объекты: климат тропической саванны, прибрежная равнина, пресные и соленые грунтовые воды, водоносный горизонт с пресной водой в верхнем профиле и соленой водой в нижнем профиле, кольцевые скважины под грунтовыми водами, подъем соленой воды. Методы: метод конечных элементов, динамическое программирование, модель подъема соленой воды Дагана-Беара, принцип наложения при работе с несколькими точками откачки для определения общего восходящего потока соленой воды. Результаты. Проанализированы различные схемы откачки воды как вертикальными скважинами, так и горизонтальными кольцевыми скважинами разного радиуса для забора соленой воды. Определено время подъема солевой массы на высоту во всех альтернативных схемах. Получена очень хорошая кривая регрессии зависимости между временем поступления соленой воды в горизонтальные круглые скважины и радиусами круглых скважин. Результаты анализа чрезвычайно полезны при проектировании скважины с точки зрения минимизации подъема соленой воды. The relevance. The Southern central region of Vietnam, including Ninh Thuan province, has a tropical savanna climate and has been heavily suffering from drought and water salinization. Ninh Thuan province has faced severe droughts in recent years because of the increase of the frequency and intensity of extreme weather conditions, the water scarcity, and the salinity of the groundwater. The distribution of fresh and saline groundwater in Ninh Thuan plain has three zones: 1) zone of entire profile with fresh groundwater; 2) zone of the upper profile's with fresh groundwater and of the lower profile's with saline groundwater, and 3) zone of entire profile with saline groundwater. The groundwater abstraction facilities in the first zone are vulnerable to salinization from surrounding saline water, while in the second zone are vulnerable to the upconing saline water from below. The aim: to determine the optimal groundwater pumping in respect to given water level drawdown, to show that the horizontal circular wells are the best for minimization of saline water upconing, to determine the relationship between the saline water upconing height and the radii of the horizontal circular wells. Objects: tropical savanna climate, coastal plain, fresh and saline groundwater, aquifer with fresh water in the upper profile and saline water in the lower profile, circular groundwater wells, saline water upconing. Methods: finite element method, dynamic programming, Dagan-Bear model of saline water upconing, superimposition principle in dealing with multiple pumping points for identification of overall saline water upconing. Results. Different schemes of pumping fields with either vertical wells or horizontal circular wells with different radii were analyzed for saline water upconing. The time of saline upconing height in all the alternative schemes were determined. A very well regression curve of the relationship between the time saline water upconing to the horizontal circular wells and the circular well radii was obtained. The analysis results are extremely useful supporting well design in terms of minimization of saline water upconing.

Published

2023

5. Saltwater Intrusion Forecast of the Pleistocene Aquifer Caused by Groundwater Exploiting in the Nam Dinh Coastal Zone.

Author

Trinh Hoai Thu, Nguyen Van Nghia, Tran Thi Thuy Huong, Do Van Thang, and Nguyen Thi Hien

Published

2017

6. The Relationship between Sequence Stratigraphy and Groundwater of Quaternary Sediments in Relation to Global Sea-level Change in the Downstream Red River Delta Area

Author

null Tran Nghi, Do Tien Hung, Trinh Hoai Thu, Renat Shakirov, Nadezhda Syrbu, Ngo Quang Toan, Hoang Anh Khien, Tran Thi Thuy Huong, Natalia Lee, Dinh Xuan Thanh, Tran Thi Thanh Nhan, Nguyen Thi Huyen Trang, Nguyen Thi Phuong Thao, Tran Thi Dung, and Tran Ngoc Dien

Subjects

Geochemistry and Petrology, Economic Geology

Published

2022

7. Groundwater quality evaluation using Water Quality Index and GIS technique for the Holocene and Pleistocene aquifers in the coastal zone of Ninh Thuan province

Author

Trinh Hoai, Thu, primary, Tran Thi, Thuy Huong, additional, Le Thi, Phuong Quynh, additional, Vu Le, Phuong, additional, Le Duc, Anh, additional, and Mai Duc, Dong, additional

Published

2021

8. Saltwater Intrusion Forecast of the Pleistocene Aquifer Caused by Groundwater Exploiting in the Nam Dinh Coastal Zone

Author

Nguyen Van Nghia, Trinh Hoai Thu, Nguyen Thi Hien, Do Van Thang, and Tran Thi Thuy Huong

Subjects

Hydrology, geography, Hydrogeology, geography.geographical_feature_category, Hydraulic conductivity, Groundwater flow, Specific storage, Aquifer, Saltwater intrusion, Groundwater recharge, Geology, Groundwater

Abstract

The hydrogeological model is applied and carried out for the Pleistocene confined aquifer systems in the Nam Dinh coastal zone, Vietnam. A 3D groundwater flow and matters spreading numerical model forecast about decreasing of the groundwater level and saltwater intrusion on the coastal areas Hydraulic conductivity K, specific storage µ*, specific yield µ and effective porosity n0 and boundary conditions are calibrated in this model. The simulated results are significant with low errors corresponding the available data. Calibrated model is utilized to forecast about decreasing of the groundwater level and movement of saltwater intrusion boundary into freshwater areas. The simulated results are indicated that freshwater areas are intrused proportional to exploiting reserves. According to currently freshwater exploiting recharge per year in 2014, freshwater areas until 2025 would be falled 4.17% than in 2005. Moreover, with currently freshwater exploiting recharge per year in 2014 for consumption and population growth and pumping-wells along main river setting, freshwater areas are intrused more strongly than the above method, and would be decreased 6.16%.

Published

2017