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Journal of Hydraulic Research

ISSN: 0022-1686 年代：1964
当前卷期：Volume 2 issue 1 [ 查看所有卷期 ]

年代：1964

	Volume 2 issue 1

1.	Preface
	Journal of Hydraulic Research, Volume 2, Issue 1, 1964, Page 1-2 L. Escande, Preview \| PDF (710KB)
	ISSN:0022-1686 DOI:10.1080/00221686409500068 出版商:Taylor & Francis Group 年代:1964 数据来源: Taylor
2.	Runoff From Impervious Surfaces
	Journal of Hydraulic Research, Volume 2, Issue 1, 1964, Page 3-24 Y. S. Yu, JohnS. McNown, Preview \| PDF (7252KB)
	ISSN:0022-1686 DOI:10.1080/00221686409500069 出版商:Taylor & Francis Group 年代:1964 数据来源: Taylor
3.	Present Experience On Ice Problems Connected With The Utilization Of Water Power In Norway
	Journal of Hydraulic Research, Volume 2, Issue 1, 1964, Page 25-40 Olaf Devik, Preview \| PDF (5414KB)
	ISSN:0022-1686 DOI:10.1080/00221686409500070 出版商:Taylor & Francis Group 年代:1964 数据来源: Taylor
4.	The Crystalline Texture And Plastic Deformation Of Ice
	Journal of Hydraulic Research, Volume 2, Issue 1, 1964, Page 41-49 L. Lliboutry, Preview \| PDF (3548KB)
	ISSN:0022-1686 DOI:10.1080/00221686409500071 出版商:Taylor & Francis Group 年代:1964 数据来源: Taylor
5.	Theoretical Solution Of The Gravity Drainage Problem
	Journal of Hydraulic Research, Volume 2, Issue 1, 1964, Page 50-74 A. C. Liakopoulos, Preview \| PDF (6930KB)
	摘要: The problem of the vertical one-dimensional transient gravity drainage from soils is investigated theoretically. During drainage, a non-steady state exists which is described by the three equations of motion, continuity and state. The resulting equivalent problem in mathematical terms is a non-linear parabolic partial differential equation in which the dependent variable is the pressure of the water or the volumetric water content of the soil and the independent variable are the time and the position along the vertical direction. Because of the strong non-linearity in its terms, the equation cannot be solved by analytical methods and therefore numerical integration is employed. The differentials of the governing differential equation are approximated by finite differences at discrete points in the solution domain and integrated numerically according to corresponding initial and boundary conditions. Both explicit and implicit difference schemes may be used. For a fast solution the implicit scheme should be used since larger time and integration network distance increments ean be employed. The use of the implicit scheme generates a system ofsimultaneous non-linear equations that has to be solved for each time increment. The solution of the system is obtained by matrix inversion and particularly with back substitution technique. The results of the theoretical solution are shown together with experimental data obtained from tests on a vertical column, packed uniformly with very fine sand. Comparison shows that complete agreement exists between values predicted from theory and values predicted from thcory and values obtained experimentally. ISSN:0022-1686 DOI:10.1080/00221686409500072 出版商:Taylor & Francis Group 年代:1964 数据来源: Taylor
6.	Bulletin no. I On The XIth I.A.H.R. Congress
	Journal of Hydraulic Research, Volume 2, Issue 1, 1964, Page 75-80 Preview \| PDF (2038KB)
	ISSN:0022-1686 DOI:10.1080/00221686409500073 出版商:Taylor & Francis Group 年代:1964 数据来源: Taylor
7.	News
	Journal of Hydraulic Research, Volume 2, Issue 1, 1964, Page 83-88 Preview \| PDF (2181KB)
	ISSN:0022-1686 DOI:10.1080/00221686409500074 出版商:Taylor & Francis Group 年代:1964 数据来源: Taylor
8.	Editorial Board
	Journal of Hydraulic Research, Volume 2, Issue 1, 1964, Page - Preview \| PDF (270KB)
	ISSN:0022-1686 DOI:10.1080/00221686409500067 出版商:Taylor & Francis Group 年代:1964 数据来源: Taylor

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