|
Ethanol & bioethanol
blending system USB-60/5
type
is designed to blend up two to five separate liquid components, particularly
low-bracket gasoline with additives, to prepare multi-component blending
motor fuel including vegetable additives.
The system
can be used at enterprises of oil-refining and food industry likewise at
petrol stations.
It is
designed to be operated indoors as well as outdoors under a shelter.
System design
allows operating at new enterprises under construction as well as at
operating ones..
Modern
hydrodynamic
(stream)
blending plants have shown themselves in industrial operation as economic,
accurate and steady means for high-quality
motor fuel production with optimal prime cost. In comparison with existing
technology of components blending at blending vessels,
reached economy and increasing of production
profitability
can force investment return up to 60 % for a year and provide project
payback for one year or less.
HYDRODYNAMIC
BLENDER
Blending process is used in hydraulic blender.
This process allows supplying
of
all components simultaneously according to the set formula to
batching collector. Through the collector finished product is delivered to
storage vessel.
The advantage of such technology is in the following:
each component dosing accurate control,
substantial reduction of batching process duration, no need
in batching vessels for finished product homogenization.
In the course of blending process at
stream mixer
the
consumption of each component are permanently controlled for
the purpose of providing finished product outlet with steady quality
parameters, set with the formulas.
Finished product, received from stream mixer, has
homogenizing structure and component content in accurate
compliance to set formulas.
OTHER
ADVANTAGES
·
Capacity increasing;
·
Efficient and optimal usage of equipment;
·
Blending process automation;
·
Reduction to minimum the influence of changes in the process
of raw material recycling at technological units
НПЗ
on the quality of finished product, received at blending
plants;
·
Reduction to minimum transport dead time while finished
product shipping;
·
Product level control at the vessels helps to use their
vessels at most rate;
·
Blending process planning improvement;
·
Reduction of labor trade,
professional development
of the personnel and increasing professional interest.
2.
SPECIFICATIONS
Таble
1
|
№
|
Parameter |
Value |
|
1. |
Blended fluids quantity |
2-5 |
|
2. |
Basic fluid mixer capacity,
m3/h
|
8,5 |
|
3 |
Five components mixer capacity,
m3/h |
60,0 |
|
4. |
Amount of dosed liquid,
m3/h: |
|
|
|
-flowmeter
1 |
1...10* |
|
|
-flowmeter
2 |
0,5...4,0* |
|
|
-flowmeter
3 |
0,5...4,0* |
|
|
-flowmeter
4 |
0,025...0,25* |
|
5. |
Blending gasoline mean weight aberration,
% |
0,2 |
|
6. |
Set
power consumption,
kW |
15 |
|
7. |
Basic fluid discharge pressure,
МPа,
max |
0,8 |
|
8. |
Mixture rise height,
m,
max |
5 |
|
9. |
Dimensions,
mm:
-
length
-
width
-
height |
1100
550
1270 |
|
10. |
Маss,
kg |
500 |
*Stated
specifications are right for the one working flowmeter
3.
SET OF
DELIVERY
3.1
Set of
delivery complies with the units stated in the table
2.
Тable
2
|
№ |
Designation |
Quantity,
pcs |
|
1. |
Ready-fitted system with pump TsNS
20/120 |
1 |
|
2. |
Certificate with operational manual |
1 |
Note.
Other pumps with similar specifications can be used.
|
