Molecular of Bioness
Weight (11 200 52 No
:
.
.
. 21
CHmOn +
aO , +
bNUs scCNcONg +
&10 +
eCOn
molecular
right of biomness
: Biomass , cellstrea
2 x
Yield Yers
-
:
consumed Molecular
weight of substrate
Amount of turned
product
P
es
Ypys =
Caban = 4
n = 1
number of available 6
Y S =
of Reduction
Degree
: =
number of Carbon atom P -
5
↓
O = -
2
N & - 3
number of available = Y x number of Latom
CmHzOyNz +
aOz +
bHgOhNe <
<CUaONg + &CO, + eUcO +
-CUpO ,
No
# available e substrate + #available Oc = #available e biomass + #available e product
wY - 4a =
cY +
+j4p
a =
= (wY-cYp-5jyp
, 0 moles of product (B) & moles of rectant (A)
rate reaction
Average of -
:
S
-t ut
↳ effected
by
Temp be calculate from at time
component specific
-
can a
- Reactant concentration
my
into account
-
surface A of reactant ever ,
need to tatre its
strichiometry
-
catalyst
aA + bB - c + dD
Rate :
-
Reaction Rate law
Rate =
↓ (AJ" (BJ]
where reactant orders
se&y are
determied periment
from .
concentration with
Change in no
rate of reaction
change in
= zero order
, Rate Law with calculus A
- B
First order reaction
d(A]
R =
ALA
dt
>
- . -
R =
k(A)
initial concentration
i das--a b+ In(Ar]
In (A) = -
+
h()
In (A)
=
H InCa) a
,
slope = -6
In [A] = -
bt + 1/Ab o Negative slope
Second Order
Rebat 2
R 1 (A)
=
-
lac-k
in its .
: It
it : lot +
it Positive slope
Weight (11 200 52 No
:
.
.
. 21
CHmOn +
aO , +
bNUs scCNcONg +
&10 +
eCOn
molecular
right of biomness
: Biomass , cellstrea
2 x
Yield Yers
-
:
consumed Molecular
weight of substrate
Amount of turned
product
P
es
Ypys =
Caban = 4
n = 1
number of available 6
Y S =
of Reduction
Degree
: =
number of Carbon atom P -
5
↓
O = -
2
N & - 3
number of available = Y x number of Latom
CmHzOyNz +
aOz +
bHgOhNe <
<CUaONg + &CO, + eUcO +
-CUpO ,
No
# available e substrate + #available Oc = #available e biomass + #available e product
wY - 4a =
cY +
+j4p
a =
= (wY-cYp-5jyp
, 0 moles of product (B) & moles of rectant (A)
rate reaction
Average of -
:
S
-t ut
↳ effected
by
Temp be calculate from at time
component specific
-
can a
- Reactant concentration
my
into account
-
surface A of reactant ever ,
need to tatre its
strichiometry
-
catalyst
aA + bB - c + dD
Rate :
-
Reaction Rate law
Rate =
↓ (AJ" (BJ]
where reactant orders
se&y are
determied periment
from .
concentration with
Change in no
rate of reaction
change in
= zero order
, Rate Law with calculus A
- B
First order reaction
d(A]
R =
ALA
dt
>
- . -
R =
k(A)
initial concentration
i das--a b+ In(Ar]
In (A) = -
+
h()
In (A)
=
H InCa) a
,
slope = -6
In [A] = -
bt + 1/Ab o Negative slope
Second Order
Rebat 2
R 1 (A)
=
-
lac-k
in its .
: It
it : lot +
it Positive slope
