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Tel.:
(8652) 55-15-03
OIL HEATING PLANT - AN EFFECTIVE WAY TO ASPHALT SMALL PARAFFIN DEPOSITS
 At present Russia
in the overall balance of oil occupy a prominent position and high-viscosity
paraffin oil, whose share has increased steadily. One of the problems complicating
the extraction of oil, is the formation of asphalt-resin-paraffin deposits (AFS)
in wells fixture.
The accumulation of
sediments in the flow of oil field equipment and on the inner surface of the
pipes leads to a decrease in system performance, reduce maintenance intervals of
the wells and reduce the efficiency of pumping units.
The most intensive deposition of
asphalt-resin-paraffin is on the inner surface of the lifting tube wells. Such complications are
inherent in virtually all oil production complex in Russia and CIS countries
with some features of the predominant content of asphalt-resin-paraffin in each
field.
Addressing the asphalt-resin-paraffin deposits provide work
for their prevention and removal.
There are several most known
methods used in the oil industry, to combat the asphalt-resin-paraffin
deposits:
mechanical method, involving removal of already
formed deposits with scrapers of various designs;
chemical method, based on
the introduction of metered well production of chemical compounds that reduce
the formation of deposits;
thermal method of well treatment.
Thermal methods are based on the
ability of asphalt-resin-parafinnovyh deposits do not form a solid phase or melt
at temperatures above their point of deposition or crystallization (for example,
paraffins 35-500C). To create the desired temperature requires a source of heat,
which must be placed directly into the zone deposits. Currently, as a heat source is
used:
hot oil or water;
Superheated steam;
reagents, the interaction that occur exothermic reactions;
special heating cables.
Numerous field
research showed that the most effective way of dealing with
asphalt-resin-paraffin deposits in wells is a thermal method with the use of
heating cables in the installation of heating oil.
CUSTOMER FEEDBACK
INSTALLATION OF HEATING OIL УН-Н-800-100-У1 исп. А
OKP 34 1610
code TN VED 8504 40 810 9
 DESIGNATION
Installation of heating oil in the wells УН-Н-800-100-У1 исп. А And is designed to combat asphalt-resin-paraffin deposits (AFS)
in the tubing (NCB) oil wells and pipelines by direct controlled heating oil heating cables.
OPERATIONThe
principle of the plant based on the automatically controlled heating cable,
placed in the tubing to temperatures can allow for the melting of AFS, their
complete removal and prevention of further education in the process of oil
production.
CONDITIONS
The unit provides
a reliable and stable operation under the influence of these climatic
factors:
upper ambient temperature + 45 °C;
lower ambient temperature minus 45 °C;
high value of relative humidity of 98% at 25 °C.
Environment must not be explosive, containing no conductive dust, corrosive gases and vapors in concentrations that deplete
metals and isolation (air type II according to GOST 15150-69).
The lower end of the heating cable should have a special
sealing of the penetration of gas inside the cable.
REGULATORY SUPPORT
Certificate of
ROSSRU.AV24.N00285.
Permission to use the RCC number 00-25811.
Comply with the technical requirements IZHSK.
BASIC PARAMETERS
| № |
Parameter |
Value |
| 1 |
The voltage applied to the cable, not less. |
510 |
| 2 |
Output current, A |
5÷150 |
| 3 |
Nominal length of heating cable, m |
1200 * |
| 4 |
Cable outer diameter, mm |
26 ± 1,0 |
| 5 |
Maximum power, kW |
80 |
| 6 |
Efficiency,% |
95 |
| 7 |
Supply voltage, V |
380 |
| 8 |
Supply frequency, Hz |
50 |
| 9 |
Number of phases of the mains |
3 |
| 10 |
The maximum permissible temperature of the cable, 0C, max |
100 |
| 11 |
The steady-state deviation of the temperature cable at the point of sensor
installation, 0C, max |
5 |
| 12 |
Weight of gross, kg, not more |
1800 ** |
| 13 |
MTBF, h |
25000 |
| 14 |
Fixed a resource, h |
100000 |
| 15 |
Target date of service, years |
10 |
| 16 |
Warranty period, years |
2,5 *** |
NOTES:
* - The length of heating cable is determined for each object
separately after the thermal calculations based on a questionnaire provided by
the customer, according to ANNEX 1.
** - When the length of heating cable 1200.
*** - Guaranteed lifetime load-carrying heating cable - 1 year from the date of commissioning
(but not more than 18 months from the date of sale).
FUNCTIONAL CAPABILITIES
Enabling and disabling the heating the heating cable.
Control of current in the circuit heating cables.
The control voltage applied to the heating cable.
Automatically maintain the desired temperature of the liquid at the wellhead.
Automatic maintenance of a given operator current levels.
Measuring the temperature of the liquid in termokarmane.
Automatic cut-off voltage of the network by the appearance of leakage
current.
Reduce the heat output to the specified level when disabling the pump unit.
Automatic re-inclusion unit at the breaks in electricity supply.
Accounting for electricity consumption integrated electricity meter, accuracy
class 1,0.
Ability to work with the heating cable length up to 2000 m with a step-up transformer rum (ordered separately).
INSTALLATION OF HEATING OIL
The installation of heating
oil УН-Н-800-100-У1 исп. А And includes the following functional components and
finished components:
| 1
|
Control Station |
1 pc. |
| 2 |
Heating cables |
1 pc. |
| 3 |
Closet terminal transition-SHKP-100-2-10 |
1 pc. |
| 4 |
Locks |
2 pcs. |
| 5 |
Sensor for thermowells-SCI-50 |
1 pc. |
| 6 |
Single SPTA |
1 pc. |
SYMBOL
STRUCTURE
Example of a record SYMBOL PRODUCTS IN ORDER
Installation of heating oil УН-Н-800-100-У1 исп. А IZHSK 435311.001 TU
Developer OAO "Stavropol Radioworks" Signal ", Stavropol, 2 nd South-West etc.
9A.
Manufacturer
OAO "Stavropol Radioworks" Signal ", Stavropol, 2 nd South-West etc.
9A.
Year Development
2005.
— Scheme of external connections CR-H-800-100-U1
Control station (СУ исп. А)
DESIGNATION
Control Station is designed to regulate and monitor the heating and the heating cable is protected from
overheating in the tubing.
A metal cabinet in which are mounted input switch, circuit breakers, control unit,
the unit breaker by current leakage, three-phase thyristor controlled rectifier
controllers to control the heating process, the counter account of electricity
consumed.
CONSTRUCTION
Implemented on a unit basis.
Cabinet frameless type.
Degree of protection IP34 according to GOST
14254-96.
Natural air cooling.
Simplex service.
Reliable electrical
contact with the cable without the use of terminals and other types of
terminations lived cross-section of 35 mm 2.
Meets Class 01 GOST 12.2.007.0-75 by the method of
protecting a person from electric shock.
Protected from rodents and reptiles.
Complies with fire safety in accordance with GOST 12.1.004-91.
MARKER, MOUNTING DIMENSIONS AND WEIGHT
Weight not over 170
kg.
WARDROBE TERMINAL TRANSITION ШКП-100-2-10
 DESIGNATION
Closet terminal transition is designed to connect load-carrying heating cable from the
control and prevents the oil-gas in the wardrobe management station, thus
eliminating the possibility of ignition.
A metal cabinet size
502h400h250 mm. Inside the cabinet there are electrical
outputs for connection of power circuits and block for connection of temperature
sensors. The design of terminal cabinet provides the cable connection
from below and designed to operate outdoors in temperate, cold and tropical
climates.
CONSTRUCTION
Cabinet frameless type.
Degree of protection IP34 according to GOST 14254-96.
Simplex service.
Reliable electrical
contact with the cable without the use of terminals and other types of
terminations lived cross-section of 35 mm 2.
Meets Class 01 GOST 12.2.007.0-75 by the method of protecting a person from electric shock.
Protected from rodents and reptiles.
Complies with fire safety in accordance with GOST 12.1.004-91.
MARKER, MOUNTING DIMENSIONS AND
WEIGHT
Weight not more than 9,2
kg.
Heating cables NAMES КГнМПТ
Designed for
heating oil up to temperature, preventing the formation of solid fractions
parafinogidratov in wells equipped with ESP, by launching directly into the
tubing.
Name of design elements:
1. Central Technological lived
2. Insulating sheath
3. Control vein
4. Isolation of control veins
5. Control wire temperature sensors
6. Insulating shell core
7. Conductors heating elements
8. Separating insulating Bundles
9. Insulating sheath heater
10. First poviv armor heating cable
11. Second poviv armor heating cable
12. Shell
In plants УН-Н-800-100-У1 исп. А cable used stamps КГнМПТ-12/2х2,0-55-100-Оа - cable load-carrying heating, with temperature
sensors, with 12 copper heating conductors cross-section of 2,0 mm 2,
separated by 2-s group of insulation burning in insulation made of
polypropylene, the nominal tensile strength of 55 kN, the maximum operating
temperature of 100 ° C in a reinforced envelope.
Specific gravity of 1,02-1,33 kg / m, diameter 26 mm 1.0.
Hiking up and down the cable is
made with the help of geophysical logging trucks (eg, PKC-5, PKC-7) or specially
supplied to the installation of heating oil unit for the implementation of this
operation (the unit climb-descent HSA-50). The process of descent
corresponds to the standard works with geophysical instruments and performed
similarly. Mounting load-carrying heating cable at the mouth of the gland is made through a special
device lock (supplied).
Nominal length of load-carrying heating cable with a voltage supply circuit 380 is 1200
meters. For heating oil in the wells with a depth of more than 1200 meters
of sediment load-bearing use of heating cable is made up transformer brands
TMPN.
INSTALLATION OF HEATING OIL УН-Н-800-100-У1 исп. Б
OKP 34 1610
code TN VED 8504 40 810 9
 DESIGNATION
Installation of heating oil in the wells УН-Н-800-100-У1 исп. Б is designed to deal with asphalt-resin-paraffin deposits (AFS)
in the tubing (NCB) oil wells and pipelines by direct controlled heating oil
heating cables.
OPERATION
The
principle of the plant based on the automatically controlled heating cable,
placed in the tubing to temperatures can allow for the melting of AFS, their
complete removal and prevention of further education in the process of oil
production.
CONDITIONS
The unit provides
a reliable and stable operation under the influence of these climatic
factors:
upper ambient temperature + 45 °C;
lower ambient temperature minus 45 °C;
high value of relative humidity of 98% at 25 °C.
Environment must not be explosive, containing no
conductive dust, corrosive gases and vapors in concentrations that deplete
metals and isolation (air type II according to GOST 15150-69).
The lower end of the heating cable should have a special
sealing of the penetration of gas inside the cable.
REGULATORY SUPPORT
Certificate of ROSSRU.AV24.N00285.
Permission to use the RCC number 00-25811.
Comply with the technical requirements IZHSK. 435311.001 TU.
BASIC
PARAMETERS
№
PM |
Parameter |
Value |
| 1
|
The voltage applied to the cable, not
less. |
510 |
| 2
|
Output current, A |
150 |
| 3
|
Nominal length of heating cable, m |
1200* 1200
* |
| 4
|
Cable outer diameter, mm |
24 ± 0,5 |
| 5
|
Maximum power, kW |
80 |
| 6
|
Efficiency,% |
95 |
| 7
|
Supply voltage, V |
380 |
| 8
|
Supply frequency, Hz |
50 |
| 9
|
Number of phases of the mains |
3
|
| 10 |
The maximum permissible temperature of the cable, °C, max |
100 |
| 11 |
The steady-state deviation of the temperature cable at the point of sensor
installation, 0C, max |
1
|
| 12 |
Weight of gross, kg, not more |
2000 ** |
| 13 |
Наработка на
отказ, ч MTBF, h |
25000 |
| 14 |
Fixed a resource, h |
100000 |
| 15 |
Target date of service, years |
10 |
| 16 |
Warranty period, years |
2,5 *** |
NOTES:
* - The length of heating cable is determined for each object
separately after the thermal calculations based on a questionnaire provided by
the customer, according to
ANNEX 1.
** - When the length of heating cable
1200.
*** - Guaranteed
lifetime load-carrying heating cable - 1 year from the date of commissioning
(but not more than 18 months from the date of sale).
FUNCTIONAL CAPABILITIES
Enabling and disabling the heating the heating cable.
Control of current in the circuit heating cables.
The control voltage applied to the heating cable.
Automatically maintain the desired temperature of the liquid at the
wellhead.
The temperature of the cable into the lowest point on the surface.
Turn off heat in excess of the established temperature heating cable.
Reduce the heat output to the specified level when disabling the pump unit.
Measuring the temperature of the liquid in termokarmane.
Measurement and control of temperature inside the control station.
Automatic cut-off voltage power line with the appearance of leakage current.
Automatic re-inclusion unit at the breaks in electricity supply.
Saving the given parameters of the absence of supply voltage.
Ability to work with the heating cable length up
to 2000 m with a step-up transformer torus (ordered separately).
Displays the current parameters of the heating process on the operator panel.
Writing and editing the parameters of the heating process with the operator
panel.
Continuous archiving modes of installation in exel format on
the following basic parameters:
- Operating current and
voltage;
- Temperature sensor
heating cable and the environment;
- Presence of leakage
current;
- The temperature in the outtake pipe;
- The temperature inside the control
cabinet;
- State control equipment.
Capacity of the archive records
at a frequency 1 time per minute for 1 year.
Data transmission over wire using a modem.
Ability to adapt to
existing systems for data collection.
INSTALLATION OF HEATING OIL
The installation of heating oil УН-Н-800-100-У1 исп. Б consists of the following functionally complete units
and components:
| 1
|
Control Station |
1
pc. |
| 2
|
Heating cables |
1
pc. |
| 3
|
Closet terminal transition-SHKP-100-2-10
|
1
pc. |
| 4
|
Locks |
2
pcs. |
| 5
|
Sensor for thermowells-SCI-50 |
1
pc. |
| 6
|
Sensor for
measuring the temperature of the heating cable - HEL-711U 1 pc. |
1
pc. |
| 7
|
CD - ROM
with software and instructions for installing and working with files 1
pc. |
1
pc. |
| 8
|
Connecting cable
interface, the controller-PC-1 pc. |
1
pc. |
| 9
|
Cable Connection
thermode thermowells - WSP 3 * 0,75 15 m |
15
m. |
| 10 |
Cable connection of
temperature sensors - KUGVVE 12 * 0,75 100 m. |
100 m. |
| 11 |
Single SPTA 1 pc. |
1
pc. |
SYMBOL
STRUCTURE
Example of a record SYMBOL PRODUCTS IN ORDER
Установка нагрева
нефти УН-Н-800-100-У1 исп. Installation of heating oil УН-Н-800-100-У1 исп. Б ИЖСК 435311.001
ТУ B IZHSK 435311.001 TU
Developer
OAO "Stavropol Radioworks" Signal ", Stavropol, 2 nd South-West etc.
9A.
Manufacturer
OAO "Stavropol Radioworks" Signal ", Stavropol, 2 nd South-West etc.
9A.
Year Development
2008.
— Scheme of external connections CR-H-800-100-U1 isp.B
Control station (СУ исп. Б)
 DESIGNATION
Control Station is designed to
regulate and monitor the heating and the heating cable is protected against
overload.
It is a
sealed metal box the size 1500h1200h430 mm, divided into three sections:
high-voltage, low voltage and control module.
The closet control stations are located:
- Controlled thyristor converter, made according to
the modification of the station on the pavement or no scheme, which allows
smooth control of voltage applied to the cable;
- Current device, providing for the disconnection control
station in the event of leakage current as the armor of the cable, and on
building the control station;
- Galvanically separated current and voltage sensors;
Equipment to maintain optimum thermal conditions inside the control
cabinet;
- Managing the industrial controller.
The station has a relay inputs and outputs to
harmonize the work of external devices (eg, control station ESP).
Adapted to the work of all modifications of heating cables, working
in DC.
Allows you to realize the
periodic warming of driving from the first of up to 5 wells of a bush, equipped
with heating cables. Moreover, for each hole, you can specify individual modes
depending on the installed heating cable and thermal conditions, as well as
prioritize and duration of heating, depending on the rate of formation
parafinogidratnyh sediments in a borehole. In
addition, the control system provides automatic conversion to heat the next in
turn well.
A positive aspect of heating several wells one site is to raise
the temperature of the produced fluid as a result of warming outtake pipes,
which, coupled with the warming ground parts of flow lines can reduce or
completely eliminate cooked oil gathering system in a bush.
CONSTRUCTION
Implemented on a unit basis.
Cabinet frameless type.
Degree of protection IP34 according to GOST
14254-96.
Natural air cooling.
Simplex service.
Reliable electrical
contact with the cable without the use of terminals and other types of
terminations lived cross-section of 35 mm 2.
Meets Class 01 GOST 12.2.007.0-75 by the method of
protecting a person from electric shock.
Protected from rodents and reptiles.
Complies with
fire safety in accordance with GOST 12.1.004-91.
MARKER, MOUNTING DIMENSIONS AND
WEIGHT
Weight not over 300
kg.
WARDROBE TERMINAL TRANSITION ШКП-100-2-10
DESIGNATION
Closet
terminal transition is designed to connect load-carrying heating cable from the
control and prevents the oil-gas in the wardrobe management station, thus
eliminating the possibility of ignition.
A metal cabinet size
502h400h250 mm. Inside the cabinet there are electrical
outputs for connection of power circuits and block for connection of temperature
sensors. The design of terminal cabinet provides the cable connection
from below and designed to operate outdoors in temperate, cold and tropical
climates.
CONSTRUCTION
Cabinet frameless type.
Degree of protection IP34 according to GOST
14254-96.
Simplex service.
Reliable electrical
contact with the cable without the use of terminals and other types of
terminations lived cross-section of 35 mm 2.
Meets Class 01 GOST 12.2.007.0-75 by the method of
protecting a person from electric shock.
Protected from rodents and reptiles.
Complies with
fire safety in accordance with GOST 12.1.004-91.
MARKER, MOUNTING DIMENSIONS AND
WEIGHT
Weight not more than 9,2
kg.
Types of
heating cables
In plants
УН-Н-800-100-У1 исп. Б
there are two types of heating cables:
1. Load-carrying cables armored heating brands REAG designed for electrical heating
blowers, injection wells and wells equipped with electric centrifugal pumps (ESP).
2.
Cables Armoured heating flat brand CNR, designed for electrical
heating wells equipped with sucker-rod pumps (SRP). For fountains, injection
wells and wells equipped with ESP, electric heating fluid by means of
load-carrying heating cable OAG, the descent through the cam directly into the
tubing ( CNT). Such a scheme of realization of electric
heating is not required for underground work, and in some cases, shut-in.
The process of
lowering load-carrying heating cable meets the standard works with geophysical
instruments, and performed similarly. Load-carrying heating cable in direct contact
with the downhole fluid, so the heat transfer is going directly into the
liquid.
For
wells equipped with SRP and screw pumps, electric heating fluid in the borehole
by means of a flat heating cable CNR, attached with metal belts (klyamsy) to the
outer surface of the tubing. Cable is
installed in the well simultaneously with the drain tubing and pump, which
greatly reduces installation costs.
Heating cables NAMES КГнМП
Cables load-carrying
heating (OAG) are used for heating oil wells equipped with ESP, pressure,
flowing well through the shutter directly into the tubing, the flow of
production fluid, to prevent the formation of solid fractions
parafinogidratov.
Name
of design elements:
1. Control TPG core
2.
2. Isolation control TPG
3.
3. Промежуточная
оболочка Intermediate casing
4. Conductors heating elements
5. Insulation of
heating elements
6. Separating Bundles
7.
Intermediate casing № 1
8.
Intermediate casing № 2
9. The 1 st poviv armor
10. 2-nd poviv armor
11.
Shell
Electrical
characteristics of heating cables REAG
| Cable makeup |
Number and nominal cross veins |
Number of groups |
El. resistivity. one conductor |
El. resistivity. Insulation |
Max, operating current (post / AC) |
Т Type Voltage |
| n
|
x
|
mm 2 |
|
Ohm
/ km |
Mohm / km |
А
|
|
|
KGnMP-12/2h2.0-55-100.Oa |
12 |
x
|
1.76 |
|
10.8 |
20000 |
125/- |
permanent |
| KGnMP-12/4h2,0-50-100-Ga |
12 |
x
|
1.76 |
4+2+2+4 |
10.8 |
20000 |
130/88 |
direct / alternating |
|
KGnMP-12/4h2.0-60-100-Oa |
12 |
x
|
1.76 |
4+2+2+4 |
10.8 |
20000 |
130/88 |
direct / alternating |
| KGnAP-12/4h2,0-50-90-Oa |
12 |
x
|
2.0 |
4+2+2+4 |
15.8 |
20000 |
110/73 |
direct / alternating |
| OAG AP-14/2x2 ,0-50-90-0a |
14 |
x
|
2.0 |
7+7 |
15.8 |
20000 |
120/- |
permanent |
Mechanical characteristics of heating cables REAG
| Cable makeup |
Tensile strength of not less |
Recommended length |
Max. operating temperature |
Outer diameter of cable |
Weight of 1 km in the air |
Weight 1km in water |
|
kN |
m
|
°С |
mm |
kg /
km |
kg /
km |
|
MP-12/2h2.0-55-100-Oa |
55 |
1100-1300 |
100 |
25,4
|
1020
1020 |
513 |
| OAG MP-12/4x2 ,0-50-100-Ga |
50 |
1100-1300 |
100 |
26 |
1056 |
525 |
| OAG MP-12/4x2.0-60-100-Oa |
60 |
1300-2000 |
100 |
26 |
1180 |
649 |
| OAG AP-12/4h2.0-50-90-Oa |
50 |
900-1100 |
90 |
26 |
856 |
325 |
| OAG AP-14/2x2,0-50-90-03 |
50 |
1000-1200 |
90 |
26 |
865 |
334 |
Heating cables NAMES CNR
 Heating cables are designed to mark CNR heating wells equipped with screw and sucker-rod pumps (SRP) and installed in the annular
space. Cables have a planar shape and are mounted on the outside of the tubing with metal brackets,
similar cables for submersible pumps. The descent and ascent of a flat heating cable is made simultaneously with the
column tubing. Control heating and placement of equipment similar to CR-H-800-100-U1 App. Used with heating cables brand
REAG. Despite the lower efficiency of heat transfer of this method the cable, available performance data showed a complete
fitness system for dewaxing wells with SRP and PCP. And there is experience in installations in batch mode, ie at night to heat, then a few days break, which corresponds to cyclic hot oiling, but it makes the use of hot oil. In general, a periodic regime is
most favorable in terms of economy and overall reduction in power consumption. However, the possibility of periodic heating and
parameters defined services VET oil companies, as in this case, the most important criterion is the composition of the borehole fluid, the percentage of paraffins, the rate of their deposits, etc.
Mechanical
characteristics of heating cables CNR.
| № |
Cable makeup |
The minimum length of supply, m |
Dimensions mm |
Weight 1 kg km |
Of groups of conductors |
Nominal power density W/m |
| 1
|
KnPMSP (8/2x2,0+3x0,75)-90 |
1000 |
10,5x40
|
1176 |
2
|
60 |
| 2
|
KnPMSP (3x7,0+3x0,75)-90 |
950 |
12,5x43,5
|
1357 |
3
|
65 |
| 3
|
KnPMSP (6/2h2,0)-90 |
850
|
10,5x26
|
1041 |
2
|
50 |
| 4
|
KnPMSP (8/2h2,0)-90 |
1000 |
10,5x34
|
1070
|
2
|
60 |
| 5
|
KnPASP (3x10,2+3x0,75)-90 |
900 |
12,5x43,5
|
1221 |
3
|
60 |
| 6
|
KnPASP (8/2x3,1)-90 |
1000
|
10,5x34
|
1084 |
2
|
55 |
| 7
|
KnPASP (6/2h2,0 +Zh0,75)-90 |
800 |
10,5x34
|
958 |
2
|
40 |
Electrical characteristics of heating cables CNR.
| № |
Cable makeup |
Nb cross section of heating elements N x
mm |
Supply voltage |
Resistance tion one TPG-tion heater element Ohm / km |
El. resistivity. Isolation MOhm * km |
Maximum Current A |
| 1
|
KnPMSP (8/2h2,0+Zh0,75)-90 |
8x2,0 |
Post |
8,7
|
10 000
|
120
|
| 2
|
KnPMSP (Zh7,0+Zh0,75)-90 |
3x7,0 |
Move. |
2,5
|
10 000
|
95
|
| 3
|
KnPMSP (6/2h2,0)-90 |
6x2,0 |
Post. |
8,7
8.7 |
10 000
|
95 |
| 4
|
KnPMSP (8/2h2,0)-90 |
8x2,0 |
Post |
8,7
|
10 000
|
120
|
| 5
|
КнПАСП
(ЗхЮ,2+ЗхО,75)-9О KnPASP (3x10,2+ZhO,75)-9O |
3x10,2
|
Move. |
2,8
|
10 000
|
90
|
| 6
|
KnPASP (8/2x3,1)-90 |
8x3,1 |
Post. |
9,1
|
10 000
|
120
|
Layout EQUIPMENT
Installation and placement
of equipment VH-H-800-100-U1, on the wellhead, are shown in Fig.9.
When placing the equipment necessary to comply with these regulations: "Safety in the oil and
gas industry," Technical Instructions for the geophysical studies and work on
the cable in the oil and gas wells, "" Rules for Electrical Installation".
Recommended layout of equipment УН-Н-800-100-У1
1.
Transformer substation
2.
Power cable installation
3.
Control Station installation of
heating oil
4.
5. Cable temperature
sensors
6.
Closet terminal transition SHKP-100-2-10
7. Belayer Castle
8. Heating cables
9. Cable temperature sensor termokarmane
|
|
10. Lubricator
11. Main lock
12. Surface fitting
hole
13. CNT
14.
Column
15.
ESP
16.
Thermowells with temperature sensor
17.
Receiving pipeline
|
The specialists
of JSC "Stavropol Radioworks" Signal "was developed and successfully applied the
method fastening, sealing and lowering the heating cable brand REAG downhole
valve. The descent and ascent heating cable round match standard works
with geophysical armored cable and is similar in view of its diameter.
UNIT
descent and ascent TSA-50
IZHSK.483111.001-01
 
DESIGNATION
The unit is designed
for tripping with the use of cables for different purposes, including
heating.
CONDITIONS The unit provides
a reliable and stable operation under the influence of these climatic
factors:
upper ambient temperature + 40 °
C;
lower ambient temperature
minus 40 °C;
atmospheric pressure 650-800 mm Hg.
BASIC PARAMETERS
| 1
|
Cable diameter, mm |
24 /
26 |
| 2
|
Capacity of the drum unit, m3 |
1,5
|
| 3
|
Traction force on the first two series of winding, KN, not less |
35
|
| 4
|
The speed of winding / coiling on a drum m / min |
15/20
|
| 5
|
Accessory drive |
electric |
| 6
|
Voltage in |
380 |
| 7
|
AC Frequency, Hz |
50 |
| 8
|
Power consumption, kW, not more |
15 |
| 9
|
Weight of the unit (without cable), kg, not
more |
1650 |
|
10 |
Dimensions, mm - length - width -
height |
2740 2000 1938 |
Size and weight
USING THE UNIT descent and ascent TSA-50
Slope and rise of the cable with the unit of HSA-50 according
to one of the options below:
Option 1. The descent and ascent heating cables by using
the unit TSA-50 and a crane, a block of commercials, balance, one of which is
fixed on the borehole valve, and the other on the hook crane. Due to the large diameter heating cable must be
used rollers block balance diameter 800-1000mm.
As a sealing device is used wellhead seal SU-73-25. Mounting load-carrying heating cables by means of two locks (zhimok with a rough surface).
|
|
 |
 |
|
Option 2. The descent and
ascent heating cables by using the unit TSA-50 and a special roller console
attached to the downhole valve. Roller console has two rollers with a diameter of 750 mm and brackets for
installing the lock fixing the heating cable. This design is installed on the downhole valve allows
operation on the descent and rise of cable with TSA-50 without using a crane or
other additional equipment. Sealing of cables by means of the wellhead flange
SU-73-25. Fixing the cable provided with 2 locks, one of which, the main (zhimok with a rough surface),
fixes the cable on the reference site.
The second lock, fears, cone type, mounted on the upper end of the cable is
attached to the outer armor wire poviva. It is designed to provide electrical contact
with wire armor and protects the cable from falling into the hole in the case of
weakening the main castle. |
ECONOMIC EFFICIENCY
Oil-producing companies,
plant operators of heating oil УН-Н-800-100-У1 different performances indicate
that their implementation can:
Exclude clearing tubing mechanical
scrapers.
Increase the life of the submersible equipment
more than doubled (700 days or more) - at the expense of non-stop pump and
reduce the load due to lower viscosity oil in the lift well.
Reduce watering of the extracted fluid, stabilize the work of the reservoir.
Remove cooked outlet pipe (500 m) even at low
temperatures.
Significantly increase productivity and extend the work of
well between repairs.
Enlarge a turnaround
time of an electric pump.
Reduce the loss of oil
production due to exceptional downtime wells downhill, uphill scrapers during
overhauls.
Reduce the
loss of oil production, spent on the thermal treatment wells.
Significantly
reduce maintenance costs of wells.
 
Installation of heating oil produced by JSC
"signal" successfully used in many oil-producing companies in Russia and CIS
countries.
APPENDIX 1
| №
|
Index |
Unit. |
Value |
| 1.
|
Type well |
|
|
| 2.
|
Method of operation |
|
|
| 3.
|
The depth of the artificial face |
m
|
|
|
4. |
The diameter of production casing |
mm |
|
|
5. |
The discharge of liquid |
m3/d |
|
| 6.
|
The discharge of oil |
tpd |
|
| 7.
|
Options tubing:
- Diameter
- Depth of suspension |
mm
m
|
|
|
8. |
Pressure reservoir |
kg / cm 2 |
|
|
9. |
The pressure at the mouth |
kg / cm 2 |
|
|
10. |
Characteristics of oil:
- Content of paraffin
- Water
- Viscosity |
% By weight
% By weight of P |
|
|
11. |
Gas-oil ratio |
m3/m |
|
|
12. |
The temperature at the mouth of |
°C |
|
|
13. |
Brine temperature |
°С |
|
|
14. |
The temperature distribution in depth:
-
0m
-
100m
-
250m
-
500m
-
750m
-
1000m |
°С |
|
|
15. |
The temperature began falling,
melting wax |
°С |
|
|
16. |
Maximum depth of paraffin |
m
|
|
|
17. |
Dynamic head |
m
|
|
|
18. |
The presence of borehole supply (voltage, power) |
In
KW |
|
|
19. |
Methods for cleaning tubing:
a) mechanical scrapers
- Interval
- The cost of the descent-ascent
b) repair of underground wells (PRS)
- Interval
- The cost of the PRS in
year
c) the hot oil, chemical reagents
- Interval
- The cost of cleaning
|
once a day
rub.
annually
rub.
annually
rub. |
|
|
20. |
Turnaround time well |
day |
|
|
