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69. F a n e h е г G. Н., L e w i s J. |
A., |
B a r n e s |
К. В. Some physical |
characteristics of soil sands. Min. |
Ind. Exp. Sta., |
Pennsylvania State Coll. |
|
Bull., 1933, vol. 12 (Цитируется |
no |
Muskat, 1937, |
p. 60). |
70.F l e t c h e r J . E. A dielectric method for determining soil moisture. Soil Sei. Soc. Am. Proc., 1939, vol. 4, pp. 84—88.
71. |
F o r c h h e i m e r P . |
Hydraulic. |
Teubner, Leipzig |
and Berlin, |
1914. |
|||||||||
72. |
F o u r i e r |
J. B. J. |
|
Théorie analitique |
de |
la |
chaleur. Firmin Didot Père |
|||||||
|
et Fils, Paris, |
1822. |
|
|
|
|
|
|
|
|
|
|||
73. |
G a r d n e r |
W. R. |
Calculation of |
capillary |
conductivity |
from |
pressure |
|||||||
74. |
plate outflow data. Soil Sei. Soc. Am. Proc., |
1956, vol. 20, |
pp. 317—320. |
|||||||||||
G a r d n e r |
W. R. Some steady state |
solutions |
of the unsaturated |
moisture |
||||||||||
|
flow equation with application to evaporation from water table. Soil Sei., |
|||||||||||||
|
1958, |
vol. 85, pp. 228—232. |
|
|
|
|
|
|
|
|
||||
75. |
G a r d n e r |
W. |
R. K i r k h a m D . |
|
Determination of soil moisture by |
|||||||||
76. |
neutron scattering. Soil. Sei., 1952, |
vol. 73, |
pp. 391—401. |
moisture. Soil |
||||||||||
G a r d n e r |
W., |
W i d t s о e J. A. |
The movement |
of soil |
||||||||||
77. |
Sei., |
1921, |
vol. |
11, |
pp. 215—232. |
|
|
J. |
Nota in |
verband |
met |
de voor- |
||
G h у b e n |
W., |
B a d e n , D r a b b e |
||||||||||||
|
genomen proefboring te Amsterdam. Tijdschr. Koninkl. Inst. Ingen., 1888— |
|||||||||||||
78. |
89, |
vol. 1, |
pp. 8—22. |
J r., |
A. |
Thesis. |
Cambridge University, |
|||||||
G o n c a l v e s |
d o s |
S a n t o s , |
||||||||||||
|
1967. |
|
|
|
|
|
|
|
|
|
|
|
|
|
79.G о u y M. Sur la constitution de la charge électrique a la surface d’un éle ctrolyte. Ann. Phys., 1910, vol. 9, pp. 457—468.
80. |
G r e e n W. H., |
A m p t G. A. Studies on |
soil |
physics. |
I. The |
flow |
of |
||||||
81. |
air and water |
through |
soils. J. Agr. Sei., 1911, |
vol. 4, pp. 1—24. |
|
in |
|||||||
G u s t a f s s o n |
Y. |
Untersuchungen |
über |
die |
Strömungsverhältnisse |
||||||||
82. |
gedräntem Boden. Acta |
Agr. Suecana, 1946, vol. 2 (1), |
pp. 1—157. |
|
|||||||||
H e i k u r a i n e n L . |
|
Improvement |
of |
forest |
growth on |
poorly |
drained |
||||||
83. |
peat soils. Intern. Rev. Forestry Res., |
1964, vol. 1, pp. 39—113. |
Hydra |
||||||||||
H e n d r i c k s |
|
S. B., |
|
N e 1 s о n R. |
A., |
A l e x a n d e r |
L. T. |
||||||
|
tion mechanism of clay mineral montmorillonite saturated with various ca |
||||||||||||
84. |
tions. J. Am. |
Chem. |
Soc., 1940, vol. 62, |
pp. 1457—1467. |
|
|
J. |
||||||
H e r z b e r g |
(Baurat). |
Die Wasserversorgung |
einiger |
Nordseebader. |
|||||||||
|
fur Gasbeleucht |
and Wasserversorg., |
1901, |
vol. |
44, pp. |
842—844. |
|
|
|||||
85.H o o g h o u d t S . B. Bijdragen tot de kennis van eenige natuurkundige grootheden van den grond, 4. Bepaling van den doorlaatfactor van den grond met behulp van pompproeven (z. g. Boorgatenmethode). Vers. Landb. Ond.,
1936, |
vol. 42 (13) B, |
pp. 449—541, |
The Hague. |
||||
8 6 . H o o g h o u d t |
S. |
B. |
Bijdragen tot |
de kennis van eenige natuurkundige |
|||
grootheden van den grond, |
7. Algemeene beschouwing wan het probleem van |
||||||
de detail ontwatering |
en |
de |
infiltratie |
door middel van parallel loopende |
|||
drains, |
greppels, |
slooten |
en |
kanalen. |
Versl. Landb. Ond., 1940, vol. 46, |
||
pp.515—707, The Hague.
87.H o r t o n R. E. An approach toward a physical interpretation of infiltra tion-capacity. Soil Sei. Soc. Am. Proc., 1940, vol. 5, pp. 399—417.
8 8 . I r m a y S. Extension of Darcy’s law to unsteady, unsaturated flow through porous media. Sympos. Darcy, Intern. Assoc. Sei. Hydrol. Dijon, 1956, vol. 2,
pp. 57—66.
89.I s h e r w o o d J. D. Water table recession in tile-drained land. J. Geophys. Res., 1959, vol. 64, pp. 795—804.
90. Я в к е E., Эм де |
Ф. Таблицы функций с формулами и кривыми. М., 1959. |
|
9 1 . K a r p l u s |
W. |
J. Analog simulation solution of field problems. McGraw- |
Hill, New York, 1958. |
||
92. K i r k h a m |
D. |
Proposed method for field measurement of permeability |
of soil below the water table. Soil Sei. Soc. Am. Proc., 1946, vol. 10, pp. 59—68. |
||
93. K i r k h a m |
D. Theory of land drainage. The ponded water case. In J. N. Lut- |
|
hin (Ed.) Drainage of agricultural Lands. Am. Soc. Agron., Madison, Wiscon |
||
sin, 1957. |
D. |
Exact theory of flow into a partially penetrating well. |
94. K i r k h a m |
||
J. Geophys. |
Res., |
1959, vol. 64, pp. 1317—1327. |
122.P h i l i p J. R. Numerical solution of equations of the diffusion type with diffusivity concentration-dependent: 2. Australian ,T. Phys., 1957, vol. 10, pp. 29—42.
123.P h i 1 i p .1. R. The theory of infiltration: 4. Sorptivity and algebraic infiltration equations. Soil Sei., 1957, vol. 84, pp. 257—264.
124.P h i l i p J. R. General method of exact solutions of the concentration-
dependent diffusion equation. Australian .1. Phys., 1960, vol. 13, pp. 1 —12.
125.P h i l i p J. R. Sorption and infiltration in heterogeneous media. Austra lian J. Soil. Res., 1967, vol. 5, p. 1 —10.
126. |
P o i s e u i l l e J. L. M. |
Recherches |
expérimentales sur le mouvement |
||
|
des liquides dans les tubes de très petits diamètres. Comptes rendus, 1842, |
||||
127. |
vol. 11, pp. 961—967; 1047—1048. |
П. |
Я. Теория движения грунтовых |
||
П о л у б а р и н о в а - К о ч н н а |
|||||
128. |
вод. М., Гостехиздат, |
1952. |
of |
pore water, an application of the |
|
P o u l o v a s s i l i s |
A. |
Hysteresis |
|||
|
concept of independent |
domains. Soil |
Sei., 1962, vol. 93, pp. 405—412. |
||
129.P o u l o v a s s i l i s A. The effect of hysteresis of pore water on the hyd raulic conductivity. .1 . Soil Sei., 1969, vol. 20.
130.R i c h a r d s L. A. Capillary conduction of liquids through porous me diums. Physics, 1931, vol. 1, pp. 318—333.
131.R i c h a r d s L. A. Methods of measuring soil moisture tension. Soil Sei., 1949, vol. 6 8 , pp. 95—112.
132. R i c h a r d s |
L. |
A., W e a v e r |
L. R. Fifteen atmosphere percentage |
as related to |
the |
permanent wilting |
percentage. Soil Sei., 1943, vol. 56, |
pp. 331—339.
133.R u b i n J. Numerical method for analyzing hysteresis-affected postin filtration redistribution of soil moisture. Soil Sei. Soc. Am. Proc., 1967, vol. 31, pp. 13—20.
134.R u s s e l l E. W. The subdivision of the clay fraction in mechanical analysis. J. Agr. Sei., 1943, vol. 33, pp. 147—154.
135. |
R u s s e l |
M. B., R i c h a r d s L. |
A. The determination of soil moi |
|
sture energy relations by centrifugation. Soil Sei. Soc. Am. Proc. 1938, vol. 3, |
||
136. |
pp. 65—69. |
|
of land drainage. In J. N. Luthin |
V a n S c h i l f g a a r d e J. Theory |
|||
|
(Ed.), Drainage of Agricultural Lands. Am. Soc. Agron., Madison, Wiscon |
||
|
sin, USA, |
1957. |
|
137.S c h o f i e l d R. K. The pF of the water in soil. Trans. 3rd Intern. Congr. Soil Sei., 1935, vol. 2, pp. 37—48.
138.S c h o f i e l d R. K. Pore-size distribution as revealed by the dependence of suction (pF) on moisture content. Trans. 1st Comm. Intern. Soc. Soil Sei., 1938, A, pp. 38—45.
139. |
S c h o f i e l d |
R. |
K., |
B o t e l h o |
d a |
C o s t a |
J. |
V. |
The determi |
|
nation of the pF at permanent wilting and at the moisture equivalent by the |
||||||||
|
freezing point |
method. |
Trans. 3rd Intern. |
Congr. Soil. |
Sei., |
1935, vol. 1, |
|||
140. |
pp. 6 —1 0 . |
R. |
K., |
S a m s o n |
H. R. The deflocculation of kaolinite |
||||
S c h o f i e l d |
|||||||||
|
suspensions and the accompanying change-over from positive to negative |
||||||||
|
chloride adsorption. Clay Min. Bull., |
1952, |
vol. 2, |
pp. 45—51. |
|||||
141.S h a w B., B a v e r L. D. An electrothermal method for following moisture changes of the soil in situ. Soil Sei. Soc. Am. Proc., 1939, vol.4, pp. 78—83.
142.S h a w C. F. The normal moisture capacity of soils. Soil Sei., 1927, vol. 23,
143. |
pp. 303-317. |
S., |
B r y a n t |
J. |
C. |
Comparison of four |
methods |
of soil |
|
S l a t e r |
C. |
||||||||
144. |
moisture |
measurement. Soil |
Sei., |
1946, vol. 61, pp. 131—155. |
|
||||
S m i l e s |
D. E., |
Y o u n g s |
E. G. Hydraulic conductivity |
determinations |
|||||
145. |
by several filed methods in a sand |
tank. Soil Sei., 1965, vol. 99, pp. 83—87. |
|||||||
S m i t h |
R. |
M., |
B r o w n i n g |
D. |
R., P o h l m a n |
G. G. |
Labora |
||
|
tory percolation through undisturbed soil samples in relation to pore-size |
||||||||
|
distribution. Soil |
Sei., 1944, |
vol. 57, |
pp. 197—213. |
|
|
|||
146.S m y t h e W. R. Static and dynamic electricity. 2nd Edn. McGraw Hill, New York, 1950.
147.S o u t h w e l l R. V. Relaxation methods in engineering science. Ox ford University Press, 1946.
148.S t a p l e W. J. Infiltration and redistribution of water in vertical columns of loam soil. Soil Sei. Soc. Am. Proc., 1966, vol. 30, pp. 553—558.
149.S t o k e s G. G. On the theories of the internal friction of fluids in motion
|
and the equilibrium and motion of elastic solids. Proc. Camb. Phil. Soc., |
||||||||||
150. |
1845, vol. 1, pp. 16—18, Camb. Trans., 1845, vol. 8 , p. 287. |
||||||||||
S v e d b e r g |
T., R i n d e |
H. |
Determination of |
the |
distribution of size |
||||||
|
of particles in disperse systems. J. Am. Chem. Soc., 1923, vol. 45, pp. 943— |
||||||||||
151. |
954. |
T., N i c h o l s |
J. |
B. Determination |
of the size and di |
||||||
S v e d b e r g |
|||||||||||
|
stribution of size of particles by centrifugal methods. J. Am. Ghem. Soc., |
||||||||||
152. |
1923, vol. 45, pp. 2910-2917. |
|
|
|
|
|
|
||||
S v e d b e r g |
T., R i n d e |
H. The ultracentrifuge, a new instrument for |
|||||||||
|
the determination of size an ddistribution of size of particles in amicroscopic |
||||||||||
153. |
colloids. J. Am. Chem. Soc., |
1924, |
vol. 46, pp. 2677—2693. |
||||||||
S w a n s o n |
C. L. W. , |
P e t e r s o n |
J. |
B. The |
use |
of the micrometric |
|||||
|
and other methods for the evaluation of soil structure. Soil Sei., 1942, vol. 53, |
||||||||||
154. |
pp. 173—185. |
|
|
D., |
H u b e r t y |
M. |
R. |
Use of infiltration |
|||
S w a r t z e n d r u b e r |
|||||||||||
|
equation parameters to evaluate infiltration differences in the field. Trans. |
||||||||||
155. |
Amer. Geophys. Un., 1958, vol. 39, pp. 84—93. |
|
|
||||||||
T e r z a g h i |
K. |
Eng. News Record, |
1925, vol. 95, pp. 832—836. |
||||||||
156. |
T h e i s С. |
V. |
The relation between |
the lowering of the piezometric sur |
|||||||
|
face and the rate of duration of discharge of a well using groundwater storage- |
||||||||||
|
Trans. Amer. Geophys. Un., |
1935, |
vol. 16, |
pp. 519—524. |
|||||||
157.T h i e m G. Hydrologische Methoden. Gebhardt, Leipzig, 1906.
158.T h i e s s e n P. A. Wechselseitige Adsorption von Kolloiden. Z. Elekrochem., 1942, vor. 48, pp. 675—681.
159.T o d d D. K. Ground Water Hydrology. John Wiley and Sons, Inc., New York, 1959.
160. T o p p G. C., M i l l e r E. E. Hysteretic moisture characteristics and hydraulic conductivities for glass-bead media. 1966, Soil Sei. Soc. Am. Proc., vol. 30, pp. 156—162.
161.V a c h a u d G. Essai d’analyse de la redistribution apres l’arrêt d’une in filtration dans une colonne horizontale de sol non saturé. Comptes rendus, 1966, A262, pp. 839—842.
162. |
V e i h m e y e r |
F. |
J. |
Some factors |
affecting |
the irrigation requirements |
||||
163. |
of decidous |
orchards. |
Hilgardia, 1927, vol. 2, |
pp. 125—191. |
||||||
V e r w e y |
E. |
J. |
W., |
N i e s s e n |
K. |
F. |
The electrical double layer at |
|||
164. |
the interface of two liquids. Phil. Mag., 1939, vol. (7) 28, pp. 435—446. |
|||||||||
V e r w e y |
E. |
.1. |
W., |
O v e r b e e k |
J. |
Th. |
G. Theory of the stability |
|||
|
of lyophobic colloids. |
Elsevier, Amsterdam, 1948. |
||||||||
165.V i s s e r W. C. Tile drainage in the Netherlands. Neth. J. Agr. Sei., 1954, vol. 2, pp. 69—87.
166. |
D e V r i e s |
D. |
A. |
Het |
warmtegeleidingsvermogen |
van grond. |
Medede- |
||||
|
lingen van |
de Landbouwhogeschool |
te Wageningen, |
1952, |
vol. |
52, (1), |
|||||
167. |
p. 1—73. |
|
В. |
P., B o l t G. |
H., M i l l e r |
R. |
D. |
Swelling pres |
|||
W a r k e n t i n |
|||||||||||
168. |
sure of montmorillonite. Soil Sei. Soc. Am. Proc., 1957, vol. 21, pp. 495—497. |
||||||||||
W e a t h e r b u r n |
C. |
E. |
Advanced vector analysis. Bell, |
London, 1924. |
|||||||
169. |
W e d e r n i k o v |
V. |
V. |
Sur la solution du problème |
a deux dimension |
||||||
|
du courant stationnaire des eaux souterreines ä surface libre. Comptes ren |
||||||||||
|
dus, 1936, 202, |
pp. 1155—1157. |
|
|
|
|
|
||||
170.W e d e r n i k o v V. V. Über die Sickerung und Grundwasserbewegung mit freier Oberfläche. Zeit. f. angew. Math, und Mech., 1937, vol. 17, pp. 155— 168.
170a. W e d e r n i k o v V. V. Sur la théorie du drainage. Comptes rendus
U.S. S. R., 1939, vol. 23, pp. 335—337.
171.W e s s e l i n g J. Enige aspecten von de waterbeheersing in landbouwgronden. Thesis, Landbouwhogeschool te Wageningen, 1957.