Article
Engineering, Civil
Selim Sengul, Muhammet Nuri Ispirli
Summary: The study determined region-specific point-specific and domain-based ATIMR functions through physical and error propagation analysis, achieving a precision of up to 0.99. Results obtained using HEC-HMS were found to be effective and valid for various SWE simulations. It was revealed that neglecting snow metamorphism can lead to unexpected trends in the tail part of the modeled ATIMR function.
JOURNAL OF HYDROLOGY
(2021)
Article
Environmental Sciences
Sikandar Ali, Muhammad Jehanzeb Masud Cheema, Muhammad Mohsin Waqas, Muhammad Waseem, Megersa Kebede Leta, Muhammad Uzair Qamar, Usman Khalid Awan, Muhammad Bilal, Muhammad Habib ur Rahman
Summary: The study utilized HEC-HMS and HEC-RAS models for flood forecasting and inundation modeling in the Chenab River basin, showcasing their effectiveness in improving accuracy and achieving an overall accuracy of over 90%.
Article
Geosciences, Multidisciplinary
Surendar Natarajan, Nisha Radhakrishnan
Summary: This study simulated rainfall-runoff in the Koraiyar basin using a reliable Hydrologic Modelling System. The impact of population growth on land-use and land-cover, and their influence on surface runoff were analyzed. Calibration and validation of the model showed satisfactory results for simulation of rainfall-runoff, indicating the potential for using the system in ungauged catchments like the Koraiyar basin.
JOURNAL OF EARTH SYSTEM SCIENCE
(2021)
Article
Geosciences, Multidisciplinary
Gaurav Talukdar, Janaki Ballav Swain, Kanhu Charan Patra
Summary: This study utilized a continuous hydrologic-hydraulic model to map flood caused by the Baitarani River in Odisha, India, and relied on the HEC-HMS and FLO-2D models to assess the extent of flooding.
Article
Environmental Sciences
Xiaolong Yu, Jing Zhang
Summary: This article analyzes the applicability of the HEC-HMS model in flood simulation in urbanization basins and the influence of land use changes on catchment runoff. The research results show that the HEC-HMS model is suitable for an urbanization basin and can provide reference for flood simulation and stormwater management.
Article
Environmental Sciences
Felicia Yeboah, Edward Kofi Ackom, Sandow Mark Yidana, Alfred Awotwi
Summary: This study used a hydrological model to simulate flood events in the Black Volta River Basin and predicted the frequency and severity of future flood events. The model performed well in the basin, and the results indicated the potential occurrence of severe and moderate floods. These findings provide valuable information for flood monitoring in the basin.
ENVIRONMENTAL MODELING & ASSESSMENT
(2023)
Article
Water Resources
Fiaz Hussain, Kai-Chun Yu, Ray-Shyan Wu
Summary: Streamflow recession analysis is applied to ungauged creek catchments to estimate hydrogeological parameters by simulating low recession flows and combining with other data approaches, showing a certain accuracy in estimating hydraulic conductivity values.
HYDROLOGICAL SCIENCES JOURNAL-JOURNAL DES SCIENCES HYDROLOGIQUES
(2021)
Article
Water Resources
Yeshmebet Yitbarek Belay, Yetnayet Almaw Gouday, Habtamu Nega Alemnew
Summary: The study utilized the HEC-HMS hydrologic model along with other methods to estimate runoff at the Middle Awash multi-purpose dam on the Awash River basin. Calibration and validation of the model showed that the initial and constant model is suitable for hydrologic simulations in the Middle Awash Catchment.
APPLIED WATER SCIENCE
(2022)
Article
Environmental Sciences
Ahmed M. Al-Areeq, Muhammad A. Al-Zahrani, Hatim O. Sharif
Summary: This study used satellite rainfall estimates to simulate flooding events in a rapidly urbanizing watershed in Saudi Arabia and compared the performance of two hydrologic models. The results showed that distributed models can effectively capture the effects of complex topography and land use variability in the watershed.
Article
Environmental Sciences
Ahmed M. Al-Areeq, Abdulnoor A. J. Ghanim, Hatim O. Sharif, Shakhawat Chowdhury, Nabil M. Al-Areeq, Muhammad Tauhidur Rahman, Mohammed S. Al-Suwaiyan
Summary: This study addresses the impact of earth fissures on flooding in the Qaa'Jahran watershed in Yemen and highlights the importance of tailored flood management strategies. The comprehensive analysis and integration of flood inundation mapping, advanced hydrologic modeling, and consideration of earth fissures provide a unique perspective on flood dynamics in urbanizing regions.
GEOCARTO INTERNATIONAL
(2023)
Article
Computer Science, Interdisciplinary Applications
Arunima Mahapatra, Vazeer Mahammood, K. Venkatesh
Summary: This article introduces a flood forecasting method based on hydrological and hydraulic models, and simulates and verifies it using the Vamsadhara River in the states of Andhra Pradesh and Odisha in India. The results of the study show that this method can accurately predict flood depth, velocity, and extent, and it is of great significance for flood disaster and watershed management planning.
JOURNAL OF HYDROINFORMATICS
(2022)
Article
Engineering, Environmental
Biju Theruvil Sayed, Hani Kaid Al-Mohair, Ahmed Alkhayyat, Andres Alexis Ramirez-Coronel, Mohamed Elsahabi
Summary: This study compares the abilities of four models in rainfall-runoff simulation and finds that black box models are more effective than white box models. Among them, the ANFIS model performs the best with the highest accuracy.
WATER SCIENCE AND TECHNOLOGY
(2023)
Article
Geosciences, Multidisciplinary
Shahla Azizi, Ali Reza Ilderomi, Hamid Noori
Summary: The study used remote sensing and hydrological modeling to investigate the impact of land use changes on flood levels in the catchment basin of the Ekbatan Dam, finding an increase in peak discharge volume and runoff height in 1985, 2000, and 2015.
Article
Geosciences, Multidisciplinary
Hong Cheng, Bingqing Lin, Siran Ying, Xingwei Chen, Qingyong Chen, Huaxia Yao
Summary: This study investigates and compares the response of flood events to typhoon induced rainstorms and non-typhoon rainstorms. The study examines the differences in flood characteristics, key parameters in the hydrological model, impacts of land use change, and frequency analysis between the two types of rainstorms. The findings provide insights into the impact of land use change on flooding in co-action regions affected by typhoon and non-typhoon rainstorms.
Article
Engineering, Civil
Xu Cheng, Xixia Ma, Wusen Wang, Yao Xiao, Qianli Wang, Xinxin Liu
Summary: This paper explores the applicability of the HEC-HMS model in small ungauged watersheds in hilly areas, using hydrological divisions III and IV of Henan Province as the research area. The study establishes regression relationships between model parameters and underlying surface characteristics, showing that the HEC-HMS model can effectively simulate the rainfall-runoff process in small watersheds in hilly areas.
WATER RESOURCES MANAGEMENT
(2021)
