BINUS University: Undergraduate / Master / Doctoral ) International/Regular/Smart Program/Global Class )
BINUS University: Undergraduate / Master / Doctoral ) International/Regular/Smart Program/Global Class )
BINUS University: Undergraduate / Master / Doctoral ) International/Regular/Smart Program/Global Class )
BINUS University
1. Please do explain what is the DAS (Daerah Aliran Sungai) and why we need DAS for
Hydrologic Analysis? (LO 1: 5 %)
2. Please explain briefly about Hydrologic Cycle (Note: Explain the cycle and the
meaning of each process) (LO 1: 5%)
3. Please explain the philosophy and process of the automatic rain recorder. (LO 1: 5%)
4. Please do explain briefly about the difference between Hydraulics and Hydrology
(Note: explain what law governs each of them) (LO 1: 5%)
5. Monthly rainfall data for 4 rain stations (Cicalengka, Paseh, Ciparay and Ujung Berung)
are given. At Ciparay Station there is a missing rainfall data for Oct 2003. Using the
data at each base station,
Estimate the amount of lost data using the normal ratio method and the inverse
square method (LO 2: 15 %)
Check the consistency of rainfall data of each rainfall station using Multiple
Mass Curve and correct the inconsistent data (only in 1 Station) (LO 2: 25 %)
Coordinate
Station
Lat Lon
Cicalengka -6.9813 107.8300
Paseh -7.1102 107.7676
Ciparay -7.0210 107.7078
Ujung Berung -6.9360 107.7295
Verified by,
Paseh
Tahun Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
1998 47 224 466 229 92 280 197 53 86 208 237 171
1999 188 89 176 143 155 38 8 30 0 89 228 94
2000 255 117 254 297 85 38 76 71 7 22 26 0
2001 18 80 289 341 198 133 69 18 0 0 222 120
2002 315 91 310 194 4 23 37 3 0 27 117 247
2003 21 21 9 15 3 1 0 0 0 169 78 0
2004 0 0 34 150 195 6 47 0 19 2 106 167
2005 134 194 168 101 1 68 23 2 22 36 42 66
2006 45 0 80 211 140 43 10 1 0 0 121 483
2007 195 539 294 526 135 84 14 0 0 164 323 310
2008 195 134 456 416 50 23 0 12 16 252 462 432
2009 254 301 438 364 296 125 1 1 1 86 148 398
Ciparay
Tahun Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
1998 195 231 317 48 78 184 197 69 72 246 211 158
1999 168 64 207 160 227 40 5 14 0 116 293 183
2000 185 91 119 172 152 36 120 73 7 171 229 39
2001 204 173 197 400 195 100 114 18 0 0 289 153
2002 326 60 324 191 28 27 25 4 0 6 83 320
2003 88 252 158 186 70 3 0 29 33 271 206
2004 205 145 214 146 226 24 5 0 57 16 140 218
2005 209 347 343 121 7 50 16 20 80 97 169 156
2006 170 219 42 226 84 2 10 0 0 22 58 643
2007 179 270 193 412 175 98 35 0 0 216 272 343
2008 179 99 282 304 53 25 0 31 22 150 382 288
2009 120 135 339 209 111 173 6 50 3 186 242 195
Ujung Berung
Tahun Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
1998 213 235 431 66 60 74 205 9 63 152 189 274
1999 181 63 130 143 50 29 20 3 0 70 283 144
2000 149 101 213 187 186 45 56 19 30 172 165 44
2001 239 99 96 249 168 53 10 1 0 0 3 71
2002 347 56 341 167 8 18 88 40 0 5 189 269
2003 220 290 175 106 57 8 0 4 45 219 94 132
2004 169 231 247 90 167 7 10 1 39 5 130 161
2005 278 323 180 94 1 74 38 28 11 117 20 224
2006 140 134 44 281 158 11 78 0 0 0 52 479
2007 217 413 233 397 112 56 31 0 0 113 238 305
2008 217 78 344 196 71 25 0 12 50 136 591 351
2009 173 283 309 244 84 174 5 2 4 63 244 225
Verified by,
Jan Feb Mar Apr Mei Jun Jul Ags Sep Okt Nov Des
Temp.
26,YZ 27,YZ 28,YZ 26,YZ 28,YZ 29,YZ 28,YZ 26,YZ 30,YZ 31,YZ 32,YZ 29,YZ
(0C)
Determine Evapotranspiration for each month in this location using both Thornwaite
and Blanney-Criddle Method. (LO 3: 15%)
Jan Feb Mar Apr Mei Jun Jul Ags Sep Okt Nov Des
Temp (0C) 26.YZ 27.YZ 28.YZ 26.YZ 28.YZ 29.YZ 28.YZ 26.YZ 30.YZ 31.YZ 32.YZ 29.YZ
Wind
speed 2.X 3.X 2.8X 4.X 1.8X 2.X 3.X 2.5X 3.X 1.5X 2.8X 4.X
(knot)
Average
Humidity 80.XY 79.XY 79.XY 80.XY 78.XY 79.XY 75.XY 74.XY 70.XY 73.XY 75.XY 79.XY
(%)
Verified by,