OilLab 571 RPVOT

OilLab 571 RPVOT

ASTM D2272

ASTM D2272 – Oxidation Stability of Steam Turbine Oils by Rotating Pressure Vessel (RBOT)

This test method utilizes an oxygen-pressured vessel to evaluate the oxidation stability of new and in-service Turbine oils having the same composition (base stock and additives) in the presence of water and a copper catalyst coil at 150°C.

His compact dimensions 35 × 38 × 41 cm and relative light weight only 25 Kg can assure an easy handling and find space above each table.

Automatic Monitoring system

  • Automatic Monitoring system included TFT 8” panel pc with an electronic board dedicated for reach the incredible performance for which this instrument is designed.
  • With a resolution of 1024 × 768 and 16 M colours for granting the maximum visibility of all parameters, equipped with 2 usb ports and RJ45 for Ethernet connection.
  • New generation end-user friendly software developed by our software technical engineers with a step-by-step procedure for perform analysis.
  • Internal database can be contain over than 60’000 analysis that can be printed out or exported with an Usb key that accompanied the main instrument.
  • The software can be switch temperature from °C in °F, calibration of the bath up to 100 points for grant the maximum precision.

Other features

  • Display pressure in bar/psi/Kpa
  • Real time graph creation
  • Export file in xls, jpg and pdf format
  • 5 pre-charged methods (12 / 24 / 48 / 96 and 192 hours)

Internal tank and mechanical parts

  • Internal stainless steel chamber with high-tech insulation
  • Magnetic rotation of internal cylinder with no-contact system
  • Automatic oxygen charge-discharge line
  • PT100 class A probe are used for control the temperature and prevent overheating

Accessories

  • LAB-101-922/CU: copper wire catalyst 3 meters, pack of 5
  • LAB-101-441/P: silicon carbide paper 100 grit, pack of 100

Spare Part

  • LAB-101-974/571-A: glass container 175 ml pack of 3 pcs.
  • LAB-101-974/571-B: cover in PTFE for glass, pack of 5 pcs.
  • LAB-101-974/571-C: beaker centering made in PTFE, pack of 3 pcs.
  • LAB-101-974/571-D: spherical cone, pack of 5 pcs.
  • LAB-101-974/D: compensation spring made in stainless steel
  • LAB-101-974/571-E: o-ring for cell cover, pack of 5 pcs.

Optional Accessories

  • LT/WM-227200: electric winding mandrel for copper wire catalyst coiling, mounted on solid base whit possibility to fix to bench, 220 Vac 50/60 Hz
  • LAB-101-922/CU500: copper wire 500gr, 1.6 mm diameter / approx. 28 mt
  • ALINK: software network connection for remote control of OilLab 571; it permit the control and monitoring of up to 10 Oillab 571

Oillab 571: RPVOT, accessories

CE marked

 

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OilLab 570 Automatic Oxidation Stability RBOT and TFOUT bath

OilLab 570 Automatic Oxidation Stability RBOT and TFOUT bath

ASTM D2112 – ASTM D2272 – ASTM D4742
IP 229

ASTM D2112 – Oxidation Stability of Inhibited Mineral Insulating Oil by
Pressure Vessel

This test method is intended as a rapid method for the evaluation of the oxidation stability of new mineral insulating oils containing a synthetic oxidation inhibitor. This test is considered of value in checking the oxidation stability of new mineral insulating oils containing 2,6-ditertiary-butyl para-cresol or 2,6-ditertiary-butyl phenol, or both, in order to control the continuity of this property from shipment to shipment. The applicability of this procedure for use with inhibited insulating oils of more than 12 cSt at 40°C (approximately 65 SUS at 100°F) has not been established.

ASTM D2272 – Oxidation Stability of Steam Turbine Oils by Rotating Pressure Vessel (RBOT)

This test method utilizes an oxygen-pressured vessel to evaluate the oxidation stability of new and in-service Turbine oils having the same composition (base stock and additives) in the presence of water and a copper catalyst coil at 150°C.

ASTM D4742 – Oxidation Stability of Gasoline Automotive Engine Oils by Thin-film Oxygen Uptake (TFOUT)

This test method evaluates the oxidation stability of engine oils for gasoline automotive engines. This test, run at 160°C, utilizes a high pressure reactor pressurized with oxygen along with a metal catalyst package, a fuel catalyst, and water in a partial simulation of the conditions to which an oil may be subjected in a gasoline combustion engine. This test method can be used for engine oils with viscosity in the range from 4 mm2/s (cSt) to 21 mm2/s (cSt) at 100°C, including re-refined oils.

IP 229 – Relative Oxidation Stability by Rotating Bomb of Mineral Turbine Oil (RBOT)

This method covers a rapid means for estimating the oxidation stability of new turbine oils having the same composition.

Oillab 570: Automatic Oxidation Stability RBOT and TFOUT bath, liquid bath

OilLab 570-SA, liquid bath

OilLab 570-SA
4 places RBOT & TFOUT liquid bath

  • His compact dimensions 70 × 85 × 60 cm and relative light weight only 60 Kg (without oil) can assure an easy handling and find space above each table.

Automatic Monitoring system

  • Automatic Monitoring system included TFT 12” panel pc and 4 pressure sensor with elevate precision combined with an electronic board dedicated for reach the incredible performance that this instrument can perform.
  • With a resolution of 1024 × 768 and 16M colours for granting the maximum visibility of all parameters, equipped with 2 USB port.
  • New generation end-user friendly software developed by our software technical engineers with a step-by-step procedure for perform analysis.
  • Internal database can be contain over than 60’000 analysis that can be printed out or exported with an Usb key that accompanied the main instrument.
  • Able to manage independently the 4 test cylinders, the software can be switch temperature from °C in °F, calibration of the bath up to 100 points for grant the maximum precision.

Oillab 570: software

Oillab 570: software

Other features

  • Display pressure in bar/psi/Kpa
  • Real time graph creation
  • Export file in xls, jpg and pdf format
  • 5 pre-charged methods (12 / 24 / 48 / 96 and 192 hours)

Oillab 570: Automatic Oxidation Stability RBOT and TFOUT bath, liquid bath, internal tank

Internal tank and mechanical parts

  • The mechanical parts designed and made in Switzerland assure a perfect matching, only the best raw materials are used for assure quality and durability.
  • The internal tank with a capacity of approximately 60 Liter of oil mixed with 2 indipendent heathing element assure a perfect stability of temperature during the analysis.
  • PT100 class A probe are used for control the temperature and prevent overheating.
  • New accessories complete this instrument like the new slide for easly accommodate the vessel into the bath and simplify the matching with the motor coupling.
  • New Drip for vessel for not waste oil outside the bath.
  • Bath temperature range from ambient to 199°C ±0.1°.

Oillab 570: Automatic Oxidation Stability RBOT and TFOUT bath, dry bath

OilLab 570-D-SA, dry bath

OilLab 570-D-SA
4 places RBOT & TFOUT dry bath

  • His compact dimensions 70 × 85 × 60 cm and relative light weight only 50 Kg can assure an easy handling and find space above each table.

Automatic Monitoring system

 

  • Automatic Monitoring system included TFT 12” panel pc and 4 pressure sensor with elevate precision combined with an electronic board dedicated for reach the incredible performance that this instrument can perform.
  • With a resolution of 1024 × 768 and 16M colours for granting the maximum visibility of all parameters, equipped with 2 USB port.
  • New generation end-user friendly software developed by our software technical engineers with a step-by-step procedure for perform analysis.
  • Internal database can be contain over than 60’000 analysis that can be printed out or exported with an Usb key that accompanied the main instrument.
  • Able to manage independently the 4 test cylinders, the software can be switch temperature from °C in °F, calibration of the bath up to 100 points for grant the maximum precision.

 

Other features

  • Display pressure in bar/psi/Kpa
  • Real time graph creation
  • Export file in xls, jpg and pdf format
  • 5 pre-charged methods (12 / 24 / 48 / 96 and 192 hours)

Oillab 570: Automatic Oxidation Stability RBOT and TFOUT bath, dry bath

OilLab 570-D-SA, dry bath

Internal tank and mechanical parts

  • The mechanical parts designed and made in Switzerland assure a perfect matching, only the best raw materials are used for assure quality and durability.
  • The internal dry bath block made in aluminium with 6 indipendent heathing element assure a perfect stability of temperature during the analysis.
  • PT100 class A probe are used for control the temperature and prevent overheating.
  • New accessories complete this instrument like the new slide for easly accommodate the vessel into the bath and simplify the matching with the motor coupling.
  • Bath temperature range from ambient to 199°C ±0.1°.

Accessories

  • LAB-101-971: oxidation pressure vessel RBOT/RPOVT

    Accessories D2112

    • LAB-101-974/A: glass container 175 ml
    • LAB-101-922/CU: copper wire catalyst 3 meters , pack of 5
    • LAB-101-441/P: silicon carbide paper 100 grit, pack of 100
    • T-AS96C: thermometer ASTM 96C

    Accessories D2272

    • LAB-101-974/A: glass container 175 ml
    • LAB-101-974/B: cover in Teflon®
    • LAB-101-974/D: spring made in stainless steel as per ASTM D2272
    • LAB-101-922/CU: copper wire catalyst 3 meters , pack of 5
    • LAB-101-441/P: silicon carbide paper 100 grit, pack of 100
    • T-IP37C: thermometer IP 37C

    Accessories D4742

    • LAB-101-978/A: glass container
    • LAB-101-978/B: cover in Teflon®
    • LAB-101-978/D: spring made in stainless steel as per ASTM D4742
    • LAB-101-978/E: aluminum insert made of 2024
    • T-AS102C: thermometer ASTM 102C

    Optional Accessories

    • LT/WM-227200: electric winding mandrel for copper wire catalyst coiling, mounted on solid base whit possibility to fix to bench, 220 Vac 50/60 Hz

    Oillab 570: Automatic Oxidation Stability RBOT and TFOUT bath, accessories

    CE marked

 

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OilLab 525 Oxidation Stability of Gasoline and Aviation Fuels

OilLab 525 Oxidation Stability of Gasoline and Aviation Fuels

ASTM D525
IP 40
EN ISO 7536

CE marked

Subject

Oxidation Stability of Gasoline (Induction Period Method)

This test method covers the determination of the stability of gasoline in finished form only, under accelerated oxidation conditions.

Main features

  • Dry bath made in stainless steel suitable for the accommodation of up to four (4) oxidation cylinders according to ASTM specifications
  • Bath temperature range from ambient to 150°C ±0.1°
  • 2 × electric heather controlled by PID system
  • Secure handle cover for open bath
  • Bath equipped with a touch screen panel PC
    • TFT/LCD 12”
    • 40 Gb HD
    • Resolution 1024 × 768 and 16M colours
  • 2 × USB ports for connecting pen drive and printer
  • The dedicated software manages: the bath temperatures by means of a PT100 sensor class A that can be displayed in °C / °F, including the overtemperature safety alarm
  • Cables and connectors
  • Oxygen sampling system with manometer and needle valve
  • Lid with 4 holes for vessel accommodation and 1 hole for thermometer
  • Dedicated software for real time monitoring and recording that includes:
    • Display of the pressure in bar / psi / Kpa
    • Graph creation in real time during the test
    • Invalid test indication
    • Export of files in xls/pdf/jpg format
    • Calibration up to 100 points
  • Power supply: 220 Vac 50/60 Hz

Dimensions

  • width 66 cm
  • depth 60 cm
  • height 45 cm

Weight

  • 45 kg

LT/OPV-200000/AUT

Accessories

  • LT/OPV-200000/AUT: Oxidation Pressure Vessel ASTM D525 made in stainless steel with threaded body:
    • Stem with filler rod and mounting flange
    • Needle valve for purging, pressurizing and exhausting pressure vessel with oxygen
    • Glass sample container with cover
    • Burst disc assembly
    • Pressure sensor
    • Interior of the pressure vessel can be easily cleaned to prevent corrosion
    • Threaded lid and vessel allow a tight closure

    Spare Parts

    • LAB-102-002: glass sample container with cover pack of 2
    • LAB-102-003: gasket for vessel pack of 10 pcs.

    Calibration Tools

    • OilLab 80: calibration decade box PT100 simulator
    • OilLab 84: kit of connectors and cables for hot range

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OilLab 715 Reid Vapour Pressure

OilLab 715 Reid Vapour Pressure

ASTM D323
ASTM D4953
IP 69
ISO 3007

CE marked

ASTM D323 – IP 69 – ISO 3007
Vapour Pressure of Petroleum Products (Reid Method)

This test method covers procedures for the determination of vapour pressure of gasoline, volatile crude oil, and other volatile petroleum products.
Procedure A is applicable to gasoline and other petroleum products with a vapour pressure of less than 180 kPa (26 psi).
Procedure B may also be applicable to these other materials, but only gasoline was included in the interlaboratory test program to determine the precision of this test method.
Neither procedure is applicable to liquefied petroleum gases or fuels containing oxygenated compounds other than methyl-butyl ether (MTBE).
Procedure C is for materials with a vapour pressure of greater than 180 kPa (26 psi) and procedure D for aviation gasoline with a vapour pressure of approximately 50 kPa (7 psi).

ASTM D4953
Standard Test Method for Vapor Pressure of Gasoline and Gasoline-Oxygenate Blends (Dry Method)

This test method covers and is applicable to gasolines and gasoline-oxygenate blends with a vapor pressure range from 35 kPa to 100 kPa.

Main Features

  • Bath made in stainless steel suitable for the accommodation of up to two (2) vapour pressure cylinders according to ASTM specifications
  • Bath temperature range from ambient to +80°C ±0.1°, filling level 20 liters
  • Motorized stirrer with shaft , drain tap
  • Electric immersion Heather controlled by PID system
  • Drive system for swing gently the vessel in horizontal position
  • Secure handle cover for open bath
  • Bath equipped with a Touch screen panel PC
    • TFT/LCD 8”
    • 40 Gb HD
    • Resolution 1024 × 768 and 16M colours
    • 2 × USB Ports for connecting pen drive and printer
  • The dedicated software manages:
    • The bath temperatures by means of a PT100 sensor class A that can be displayed in °C / °F, including the over temperature safety alarm
    • 2 (two) electronic sensors, pressure transducers / electronic pressure gauges supplied for the coupling to the test vessels
  • Cables and connectors
  • Dedicated software for real time monitoring and recording that includes:
    • Display of the pressure in bar / psi / Kpa
    • Graph creation in real time during the test
    • Invalid test indication
    • Export of files in xls / pdf / jpg format
    • Calibration up to 100 points
  • Power supply: 220Vac 50/60Hz

Accessories

  • LAB-100-371/50: silicone oil, can of 25 litres
  • T-AS18C: thermometer ASTM 18C
  • LAB-102-013: flexible Junction for O2
  • LT/RC-179000-A/M
    Reid Cylinder – Liquid Chamber – One Opening – ASTM D323:

    • made in stainless steel
    • in one end of the liquid chamber an opening of approximately ½” shall be provided for coupling with the vapour chamber
    • the inner surface of the coupling end shall be sloped to provide complete drainage when inverted
    • the other end of the chamber shall be completely closed
  • LT/RC-179000-B/M
    Reid Cylinder – Vapour Chamber – ASTM D323:

    • made in stainless steel
    • lower coupling
    • upper ½” groove with a ¼” reducing cap for pressure gauge

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OilLab 880 Saybolt Viscometer

OilLab 880 Saybolt Viscometer

ASTM D88
ASTM E102
IP 55
FTM 791-0304
JIS K 2207

CE marked

Subject

ASTM D88 Saybolt Viscosity: covers the measurement of viscosities of petroleum products at temperature between 21° and 99°C (70° ÷ 210°F)
ASTM E 102 Saybolt Viscosity: covers the measurement of viscosities of petroleum products at temperature between 121° and 232°C (250° ÷ 450°F)

Principle of detection

The sample is heated and mantained stable at test temperature. Once the analisys start the valve is opened and a real time CCD camera will observe the flow of the sample until reach the level mark and close the valve. The time and relevant viscosity index (SUS and/or SFS) are automatically calculated.

Measuring Temperature Devices

  • Bath temperature: PT100 sensor stainless and steel

Detection system

  • Integrate CMOS sensor high definition
  • Integrate LED backlight

Heater

  • Electrical heating

Safety Devices

  • Safety thermostat over-temperature cut-out

OilLab 880: Saybolt Viscometer

Software Features

  • User friendly interface
  • All analytical parameters recorded
  • Customizable analysis parameters and methods
  • Customizable results report
  • Printable graphs and results
  • Orifices calibration procedure with reference sample
  • Centering procedure of the level mark of the receiver flask
  • Automatic open/close valves
  • Automatic viscosity calculation
  • Audible chimie alarm for over-temperature
  • Selectable temperature displaying: °C / °F

The software includes:

Analysis Menu

  • Automatic execution of the analysis in accordance to the selected procedure (Standard method as per ASTM / IP / ISO / EN / DIN… norms of reference)
  • Display in real time of all the analysis parameters and status
  • Fields for introduction of operator and product name
  • Audible alarm and displayed messages at the end of the analysis and in case of errors and/or malfunctions

Diagnostic Menu

  • Direct access to all analog, digital, inputs and outputs
  • Selectable value displaying: °C / Volt

Calibration Menu

  • Up to 100 calibration points (standard with 5 and dynamic with up to 100 points)
  • Last calibration date referred to each single probe displayed and relevant data printable
  • Display of calibration diagram
  • Comparative with reference thermometer
  • Selection calibration due date

Data Utilities

  • Archive viewer for files recall
  • All analysis stored in Excel® compatible format

Analysis storage

  • Storage capacity for more than 65.000 analysis
  • Export of test results files in the most common formats Excel and PDF
  • Reading interval of PT100 sample from 0 to 450 °C with resolution 0.1 °C

Integrated Touch Screen Panel PC

  • TFT/LCD 8.4″
  • Resolution 1024 × 768, 16.2 M colours
  • 1 × USB ports for connection to an external printer

Electrical Supply

  • 220V ± 15% / 50 to 60 Hz
  • 115V ± 15% / 60 Hz

Ambient Temperature

  • Max 35 °C
  • H.R. 80%

Weight:

  • 45 kg

Dimensions

  • width: 43 cm
  • depth: 38 cm
  • height: 60 cm

Accessories

  • LAB-100-161: filter funnel with stainless steel wire mesh
  • LAB-100-162: Saybolt flask 60 ml
  • LAB-100-163: thermometer support
  • LAB-100-164: withdrawal tube
  • LAB-100-167: movement ring ASTM E 102
  • LAB-100-168: suction pipette

Spare Parts

  • LAB-100-161: filter funnel with stainless steel wire mesh
  • LAB-100-162: Saybolt flask
  • LAB-100-164: withdrawal tube
  • LAB-100-165: universal orifice
  • LAB-100-166: furol orifice
  • LAB-100-168: suction pipette
  • LAB-100-371: silicone oil 25 litres
  • LAB-140-001/A: PT100 probe
  • LAB-11-0012: heater

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OilLab 6000 – Leonardo Pensky Martens

OilLab 6000 – Leonardo Pensky Martens

ASTM D93 procedures A, B, C
DIN 51578
EN 22719
IP 34
ISO 2719

CE marked

Subject

Flash Point on petroleum products, gas oils, fuel oils, lubrificants, biodiesel. Suitable
for flash point detection on different substances, waste materials, solvents…

Measuring Pensky Martens Principle

The sample is heated and stirred at specified rates, using one of three defined procedures (A, B, or C). An ignition source is directed into the test cup at regular intervals with simultaneous interruption of the stirring, until a flash is detected.

Measuring Parameters

  • Temperatures: in °C / °F
  • Measuring range: 0°C … +420°C
  • Resolution: 0.01 °C
  • Accuracy: ± 0.1 °C
  • Repeatability / Reproducibility: as per standards methods or better

Measuring Temperature Devices

  • Sample temperature: PT100 sensor completely made in stainless steel resistant to corrosion and shock resistant
  • Bath temperature: PT100 sensor

Pressure sensor

  • Built-in sensor with automatic correction of results to a barometric pressure of 101.3 kPa automatically performed by the software at the end of analysis

Detection system

  • A single multi-detector combines the ionization detector and the thermal detector

Double ignition system

  • Gas
  • Ectrical ignitor

Heater

  • Electrical heating with heating rates as per procedures A, B, C

Stirrer

  • An electric motor drives the stirring of the product
  • Stirring speed as per selected procedures A, B, C

Cooling system

  • Built-in forced air fan

Safety Devices

  • Automatic diagnostic in case of breakage of the sample temperature probe and thermal sensors
  • Automatic fire detection system
  • Overheating protection with auto shut off during the test
  • Gas valve for closing the gas supply (max 30 mBar), at the end of the test

Fire Extinguisher

  • Automatic fire detection and extinguisher system

Software Features

  • All analytical parameters recorded
  • Customizable analysis parameters and methods
  • Customizable results report
  • Printable graphs and results

The software includes:

Analysis Menu

  • Automatic execution of the analysis in accordance to the selected procedure (Standard method as per ASTM / IP / ISO / EN / DIN… norms of reference as well as costumized procedures)
  • Automatic handling of samples with unknown flash point
  • Display in real time of all the analysis parameters and status
  • Fields for introduction of operator and product name
  • Expected flash point temperature programmable
  • Audible alarm and displayed messages at the end of the analysis and in case of errors and/or malfunctions
  • Configuration menu with up to 20 preset samples and expected flash point
  • Automatic barometric correction of results

Diagnostic Menu

  • Direct access to all analog, digital, inputs and outputs
  • Selectable value displaying: °C / Volt

Calibration Menu

  • Automatic calibration of each temperature probe
  • Up to 100 calibration points (standard with 5 and dynamic with up to 100 points)
  • Programmable calibration frequency with selectable validity period and notice/lock-down at expiration date
  • Last calibration date referred to each single probe displayed and relevant data printable
  • Display of calibration diagram

Data Utilities

  • Archive viewer for files recall
  • All analysis stored in Excel® compatible format
  • LIMS compatible

The Analysis Menu

Access via password to the following menu:

  • calibration
  • program settings
  • selection ignitor type

Calibration:

  • comparative with reference thermometer and barometer
  • selection calibration due date
  • automatic diagnostic in case of faulty of the temperature and thermal sensors

Analysis storage:

  • storage capacity for more than 65.000 analysis
  • export of test results files in the most common formats Excel and PDF

The Analysis Menu

  • Lin-Tech algorithm temperature ramp and auto-adapt for any type of sample
  • Double Flash detection (by thermal sensor and ionization ring simultaneous)
  • Rapid test selection between electrical ignitor and gas ignitor
  • Automatic barometric correction of the results via a built-in barometer
  • LIMS communication capable

The Analysis Menu

  • Reading interval of PT100 sample from 0 to 450 °C with resolution 0.01 °C
  • Reading interval of PT100 bath from 0 to 450 °C with resolution 0.01 °C
  • Double ignition system: gas and / or electrical ignitor
  • Fully automatic arm that can be brought into three positions: cleaning, testing and idling time

Integrated Touch Screen Panel PC

  • TFT/LCD 8.4″
  • Resolution 1024 × 768, 16.2 M colours
  • 2 × USB ports for connection to an external printer
  • 1 × ethernet port for LAN and LIMS network

Electrical Supply

  • 220V ± 15% / 50 to 60 Hz
  • 115V ± 15% / 60 Hz

Ambient Temperature

  • Max 35°C
  • H.R. 80%

Dimensions

  • width 37 cm
  • depth 52 cm
  • height 32 cm

Weight

  • 30 Kg

Accessories / Spare Parts

  • LAB-6000/05-23: heater collar
  • LAB-6000/06-21: gas valve
  • LAB-6000/07-01: electrical ignitor
  • LAB-6000/07-03: micro switch
  • LAB-6000/07-04: handle
  • LAB-6000/07-05: gas ignitor
  • LAB-6000/08-12: PT100 product
  • LAB-6000/08-13: detection / ionisation cable
  • LAB-6000/08-14: PT100 Bath
  • LAB-6000/09-04: gas reducer
  • LAB-6000/09-05: calibrated brass crucible
  • LAB-6000/10-04: PCB fuses, box of 10
  • LAB-6000/11-02: stirrer belt
  • LAB-6000-118: fire extinguisher system

Calibration Tools

  • OilLab 80: calibration decade box – PT100 simulator
  • OilLab 91: set of connectors and cables for OilLab 6000

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