The Experimental Study of the Effect of Initial Water Content on Water Transport and Distribution Characteristics in Injection Irrigation

Article Preview

Abstract:

The effect of initial water content on water transport characteristics in injection irrigation is analyzed through an indoor experiment of injection irrigation in different initial water contents. The research shows the following results. The relationship between the cumulative infiltration and time accords with power function. The higher the initial water content is, the bigger the cumulative infiltration is in the same time. The wetting front is a semi-circle with its center below the water outlet, the transport velocity of which slows down with the passing of time. The transport velocity of vertical section crossing the middle of the two outlets approaches that of vertical section at the middle point of the central line of the two outlets. The higher the initial water content is, the shorter the time of the transport velocity of the two sections similar to each other is. The water wetted range is comparatively wider, and the water content is comparatively higher below the outlet, and it is reverse above the outlet. The higher the initial water content is, the wider the wetted range is and the higher the water content of the soil being the same distance from the outlet is. The above research provides a basis for supplementing the theories and technologies of injection irrigation.

You might also be interested in these eBooks

Info:

Periodical:

Advanced Materials Research (Volumes 518-523)

Pages:

4288-4292

Citation:

Online since:

May 2012

Export:

Price:

Permissions CCC:

Permissions PLS:

Сopyright:

© 2012 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] Wu Feng, Zai Songmei and Cong Peijuan: submitted to Water Saving Irrigation (2004). In Chinese

Google Scholar

[2] Wang Zhenhua, Lv Desheng and Wen Xinming: submitted to Journal of SHIHEZI University (Natural Science) (2005). In Chinese

Google Scholar

[3] Li Hong, Luo Jinyao: submitted to Water Saving Irrigation (2005). In Chinese

Google Scholar

[4] Zhang Yandong: submitted to Gansu Science and Technology (2008). In Chinese

Google Scholar

[5] Zhao Shuzhen: submitted to Gansu Science and Technology (2009). In Chinese

Google Scholar

[6] Lin Xiaoli: submitted to Heilongjiang Science and Teclnology of Water Conservance (2007). In Chinese

Google Scholar

[7] Tao Yanhuai, Wang Chuanrong, and An Qingping: submitted to Heilongjiang Science and Teclnology of Water Conservance (2002). In Chinese

Google Scholar

[8] Yao Limin, Li Mingsi and Shen Xiaojun: submitted to Journai of Northwest A & F University (Natural Science Edition) (2007). In Chinese

Google Scholar

[9] Zhao Weixia, Zhang Zhenhua and Cai Huanjie: submitted to Transactions of The Chinese Society of Agricultural Engineering (2010). In Chinese

Google Scholar

[10] Fang Buling, Jin Yongkui: submitted to Journal of Irrigation And Drainage(2010). In Chinese

Google Scholar