Main Page
Faculty
About the Faculty
Dean Message
Administration
Administration Hierarchy
Faculty Associations>
Saudi Society for Environmental Scienes
Saudi Society of Meteorology
Faculty Labs >
Central Lab
Faculty Film
Departments
Meteorology
Environmental Sciences
Arid Land Agriculture
Hydrology and Water Resources Management
Graduate Studies
Regulations and Guidelines
Graduate Programs
Graduate Studies
Graduate Program >
Department of Meteorology >
Master's in Meterology
Master in Meterology
Department of Environment >
Master of Environment
Doctor of Occupational Hygiene
Doctor of Food Safety and Hygiene
Doctor of Water Pollution
Doctor of Air Pollution and Meteorology
Department of Agriculture >
Master of Animal Production
Master groves
Master and crop protection
Master of Field Crops and Soil
Master of Horticulture
Master of Natural Resources
Master of other decisions
Ph.D. Animal Production
Ph.D. orchards
Doctor of natural resources
PhD Field Crops and Soil
Ph.D. and crop protection
Ph.D. other decisions
Department of Hydrology >
Master of Hydrology
PhD
International Cooperation
Units
Unit of Assessment and Academic Accreditation
The Applications of Systems Quality Unit
Students Activities
Students Activities
Researchs
Files
Courses
Employees
Subjects
Awards
Site Contents
Favorite Links
PhotoAlbum
Latest News
Contact With Us
Contact Us
Faculty Map
Our Contacts
عربي
English
About
Admission
Academic
Research and Innovations
University Life
E-Services
Search
Faculty of Environmental Sciences
Document Details
Document Type
:
Article In Journal
Document Title
:
Estimation of Surface Infiltration and Subsurface Percolation Rates for Namman Basin
تقدير معدلات التسرب السطحي والصرف العميق خلال طبقات التربة لوادي نعمان
Document Language
:
Arabic
Abstract
:
Abstract. This study investigates infiltration and percolation processes in Namman basin, south east of Makkah city, in the western region of Saudi Arabia. Double ring method was used to estimate infiltration rates in 18 sites in Namman basin and its major tributaries. Variations of soil moisture content values with time and vertical water percolation rates were estimated using the Neutron Probe instrument installed at the intersection of main stream of Namman basin and one of its major tributaries. The results of the study indicated that infiltration rates are very high in the main channels of Namman basin and its tributaries. The mean value of infiltration rate was about 2 cm/min, while mean values of initial and final infiltration rates were 3.7 and 1.6 cm/min, respectively. The neutron probe experiment showed that maximum measured soil moisture value was about 24%. Value of moisture content of soil at various soil depths has increased by about 20% within 10 min from the beginning of the experiment. A linear empirical relationship between wetting front arrival time and soil depth was found and used to predict wetting front arrival time to various soil depths. The relation also suggests that wetting front needs about 2 h to reach depths up to 25 m provided that ponding head does exist on the soil surface. The results of the study can be utilized for various hydrological investigations of Namman basin such as water budget, rainfall losses, groundwater recharge and runoff estimations.
ISSN
:
1319-0989
Journal Name
:
Arts and Humanities Journal
Volume
:
21
Issue Number
:
1
Publishing Year
:
1431 AH
2010 AD
Article Type
:
Article
Added Date
:
Wednesday, July 11, 2012
Researchers
Researcher Name (Arabic)
Researcher Name (English)
Researcher Type
Dr Grade
Email
عبدالله سعد الوقداني
Al-Wagdany, Abdullah S
Investigator
Doctorate
AWAGDANI@KAU.EDU.SA
Files
File Name
Type
Description
33922.pdf
pdf
Back To Researches Page