3 titration solution, Titration solution, 3 .3 titration solution – BUCHI KjelSampler K-377 User Manual
Page 27
3 Technical data
27
K-375/376/377 Operation Manual, Version B
Measuring input:
pH/mV input with 12 bit transducer for accurate resolution during the titration
Connection:
electrode socket according to DIN 19 262 or BNC socket and reference electrode 1 x 4 mm socket
Measuring range
Display resolution
Accuracy* without sensor
Input resistance (
Ω)
pH 0…14
0.01
0.05 ±1 digit
> 5·10
12
mV –1400 ... +1400
0.1
2 ±1 digit
> 5·10
12
Measuring range
Display resolution
Accuracy* without sensor
T [°C]
–30…115
0,1
0,5 K ±1 digit
*Accuracy:
Indicated in terms of measuring incertainty with a confidence of 95%. In addition the measuring uncer-
tainty of the sensor has to be taken into account as well. For pH electrodes e.g.:
∆ pH=0.012...0.03
according to DIN 19 266, Part 3.
3 .3
Titration solution
The amount of sample and the concentration of the titrant should be optimized, so that the titrant
volume is between 3 and 17 mL (buret volume: 20 mL).
Table 3-16: Nitrogen expected
N-amount
N-content
Sample size
Titrant
Titrant concentration
Titrant volume
5 mg N
0.5 % N
1 g
H
2
SO
4
0.01 mol/L
17.8 mL
50 mg N
5 % N
1 g
H
2
SO
4
0.1 mol/L
17.8 mL
100 mg N
10 % N
1 g
H
2
SO
4
0.25 mol/L
14.3 mL
100 mg N
10 % N
1 g
H
2
SO
4
0.5 mol/L
7.1 mL
200 mg N
20 % N
1 g
H
2
SO
4
0.5 mol/L
14.3 mL
200 mg N
20 % N
1 g
H
2
SO
4
1 mol/L
7.1 mL
Table 3-17: Protein expected
P-content
P-factor
N-content
Sample size
Titrant
Titrant concentration
Titrant volume
1 % P
6.25
0.16 % N
2 g
H
2
SO
4
0.01 mol/L
11.4 mL
2 % P
6.25
0.32 % N
1 g
H
2
SO
4
0.01 mol/L
11.4 mL
5 % P
6.25
0.80 % N
2 g
H
2
SO
4
0.1 mol/L
5.7 mL
10 % P
6.25
1.6 % N
2 g
H
2
SO
4
0.1 mol/L
11.4 mL
10 % P
6.25
1.6 % N
2 g
H
2
SO
4
0.25 mol/L
4.6 mL
20 % P
6.25
3.2 % N
2 g
H
2
SO
4
0.25 mol/L
9.1 mL
50 % P
6.25
8.0 % N
2 g
H
2
SO
4
0.5 mol/L
11.4 mL
General recommendation
The correction factor for self prepared solutions is called titer.
The use of standardized titration solutions make a titer determination unnecessary.
Exact titrant concentration = concentration x titer
The titer of the titrant must be known. In case, it is unknown, it must be determined.
Example: Exact titrant concentration = 0.100 mol/L x 0.998