ch.6

ch.6VI.1 , . BOD .1) , .

2) BOD .1) .

, ( ) ( ). .

.

x C . . (1) , .

, .

2) (1) .

BOD / ln y / x . . , BOD . . Excel Regression() .

VI.2 Excel BOD . 0.4 ms-1 , x=o , BOD . km BOD .

VI.3 , ().1) , , 1 .2) , . ( .)1) . , , . (=) , . .

, ks 1 , , , .

2) Vollenweider ( ) .

, (Qin=Q). , .

.

, . .

.

VI.4 Develope the governing equations of Streeter-Phelps model and derive the solution. What is the critical D.O. deficit and distance?(Streeter-Phelps . .)

Integration factor method can be described as follows :where1) 1925, Streeter and Phelps sag curve . (BOD) , Streeter-Phelps , . BOD , 1 . , , 1 .

, L = BOD , = , = 1 ( ). , .

.

CBOD DO .

, C = , L = BOD , = , ML-3, = 1 . .

Streeter-Phelps , BOD DO . , BOD BOD (L) , L DO , .

BOD (1) (2) . :

(1)

(2) DO .

.

, ; q(t) ; y ; t . , .

.

1, , , BOD , . .

Streeter-Phelps D.O. sag curve, : BOD . : D.O. , . : D.O. sag curve .

2) ( ) ( ), , ( )( ) 0 . , .

, , .

, .

, ( ) .

x = 0 0 (D.O. ), .

VI.5 , . . . ( 6.)

. . (3M) (10) , . 1.

Sample 25g (0.85%) 225ml 1 Sample .

([3M Petrifilm]) () , ,

.

.

VI.6 BOD DO , DO . .

(63a) - , (63b) . (74a) L , .

Streeter-Phelps (34) . DO (DO "sag" ) Streeter-Phelps , CBOD . 6.5 ( ) CBOD( ) . .

VI.7 , , , , , , DO . DO .CBOD( ), NBOD, , , CBOD , , SOD DO . DO .

, .

.

, CBOD , NBOD, , , BOD( ) . . .-

VI.8 .

VI.9 , , . , , .

Fick 3 .

C : D: tensor V: vectorS : t : :

, , .

,GL= (g/m3.day)GB= , , , (g/m3.day)GK= (g/m3.day)

Network Box 3 (WASP5 ) , .

. (Taylor, 1956).

, r , u* , . t ( ) p ( ).

Elder(1959) Taylor(1956) .

, : (m2/day) : : Manning : (m/sec) : (m)