Nagy László (szerk.): A vízgazdálkodás fejlődése (TIT, Budapest, 1970)
X. Mellékletek
Fig. 48. Dredging the Danube at Budapest 211 Fig. 49. Ice-breakers on the Danube 216 Fig. 50. Daily inspection of buoyage and riverside signposts for the sake of navigation 219 Fig. 51. Streamflow is diverted by groins 221 Fig. 52. Blasting is a good means to promote ice drift 223 Fig. 53. New transverse dams are built in the lower Danube 225 Fig. 54. Modern dredgers are employed in training the Rába River 229 Fig. 55. There were many breaking banks on the Tisza River 232 Fig. 56. Breaking banks were improved by stone and wattle 235 Fig. 57. Embankment protection is made over long stretches 236 Fig. 58. Fascine mattress before sinking 238 Fig. 59. Training walls are guiding the flow in the Black Körös 240 Fig. 60. Coast revetments on Lake Balaton have a length over 60 km 244 Fig. 61. Sometimes, rock is used to protect the river bed 246 Fig. 62. Modern embankment construction is aided by water-jet dredging 247 Fig. 63. A ship passing the Tiszalök navigation lock 256 Fig. 64. Lock gates are inspected regularly 259 Fig. 65. The Soroksár Danube branch is linked with the Main Danube through a navigation lock 261 Fig. 66. Siófok is not only the largest port of Lake Balaton, but owing to the Sió gate, also a key point of the lake level control 263 Fig. 67. The largest trade port of our country was built at the upstream peak of Csepel island 267 Fig. 68. There is a substantial international transit trade in the free port 268 Fig. 69. The port of the Danube Steel Works was built in 1950 269 Fig. 70. Tiszalök barrage is supplying electric power since 1959 282 Fig. 71. Mounting of the huge Kaplan turbine was a memorable stage of Tiszalök barrage construction 285 Fig. 72. The Kisköre hydroelectric plant, now in progress, will have an output of 28 MW 286 Fig. 73. Streamflow investigations in connection with the planned barrage at Nagymaros 288 Fig. 74. The Köszörűvölgy reservoir in progress 292 Fig. 75. The completed reservoir is already storing water 293 Fig. 76. Reservoirs in the plains are keeping a head of 2—3 m only 294 Fig. 77. There will be a huge reservoir upstream of Kisköre barrage 295 Fig. 78. Water level in reservoirs is fluctuating 296 Fig. 79. The Rakaca reservoir has a capacity of 5.5 million cu.m 297 Fig. 80. High dams were already built by the Romans 298 Fig. 81. Ancient fortresses were also protected by dammed-up water 299 Fig. 82. Lake Hámor is known by everybody 300 Fig. 83. Lázbérc reservoir is completed too 303 Fig. 84. The Szinva springs are helping the water supply of Miskolc 305 Fig. 85. The Borsod Waterworks System gives treated water to a whole region 307 Fig. 86. Spring water is consumed in Balatonfiired 310 873
