Thiết bị Peteco

OUR PRODUCTS

ALUMINUM DOME ROOF

General Information: The Aluminum Geodesic Dome is a self-supporting cover used usually in refineries and tank farms, where the storage product and the structural tank components must be protected from atmospheric and environmental influences, while at the same time, minimizing hazardous vapor emissions and preventing water from entering the storage tanks. They can be used for both new tanks and retrofit projects

Features:

The assembled structure complies with the design requirements API 650 standard.
Lowest cost solution and short-term payback.
Eliminates rainwater entry and possible product contamination.
Prevents the possibility of a sunk roof due to rain or snow accumulation.
Easy to install (plus minimum downtime).
Maintenance-free structure due to all aluminum construction.
Strong, durable and corrosion resistant.
Lightweight design (minimal additional weight to existing foundations).
Makes all the problems associated with either hose or pipe drains obsolete.
Protects the existing seals from ultraviolet and other environmental hazards.
Minimum evaporation losses.

Aluminum Dome Roof is installed at the St. Petersburg City (Russia)

Aluminum Dome Roof is installed at the Tarragona City (Tây Ban Nha)

ALUMINUM DOME ROOF

General Information: The Aluminum Geodesic Dome is a self-supporting cover used usually in refineries and tank farms, where the storage product and the structural tank components must be protected from atmospheric and environmental influences, while at the same time, minimizing hazardous vapor emissions and preventing water from entering the storage tanks. They can be used for both new tanks and retrofit projects

Features:

The assembled structure complies with the design requirements API 650 standard.
Lowest cost solution and short-term payback.
Eliminates rainwater entry and possible product contamination.
Prevents the possibility of a sunk roof due to rain or snow accumulation.
Easy to install (plus minimum downtime).
Maintenance-free structure due to all aluminum construction.
Strong, durable and corrosion resistant.
Lightweight design (minimal additional weight to existing foundations).
Makes all the problems associated with either hose or pipe drains obsolete.
Protects the existing seals from ultraviolet and other environmental hazards.
Minimum evaporation losses.

Aluminum Dome Roof is installed at the St. Petersburg City (Russia)

Aluminum Dome Roof is installed at the Tarragona City (Tây Ban Nha)

Vacuum Lude Oil Purifier

Description: Vacuum lubricating oil purifier mainly treats mechanical oil, lubricating oil, hydraulic oil, air compressor oil, turbine oil contaminated with water and impurities.

The machine adopts vacuum distillation technique and polymer filter to quickly and effectively remove water, gas, impurities and volatile substances (such as alcohol, gasoline, ammonia…), thereby restoring the oil’s viscosity. , flash point and other performance indicators.

The oil after being filtered has emulsification value, low water and gas content, and high purity. Suitable for cleaning and regenerating industrial oils in mechanical engineering, metallurgy, shipping, thermal power…

Function: Remove impurities, gas and water in oil.

Technology: Coalescer filter and vacuum distillation.

Specifications table

Opertation Diagram

Vacuum Lude Oil Purifier

Description: Vacuum lubricating oil purifier mainly treats mechanical oil, lubricating oil, hydraulic oil, air compressor oil, turbine oil contaminated with water and impurities.

The machine adopts vacuum distillation technique and polymer filter to quickly and effectively remove water, gas, impurities and volatile substances (such as alcohol, gasoline, ammonia…), thereby restoring the oil’s viscosity. , flash point and other performance indicators.

The oil after being filtered has emulsification value, low water and gas content, and high purity. Suitable for cleaning and regenerating industrial oils in mechanical engineering, metallurgy, shipping, thermal power…

Function: Remove impurities, gas and water in oil.

Technology: Coalescer filter and vacuum distillation.

Specifications table

Opertation Diagram

Turboexpander

Peteco is the reseller for L.A. Turbine Corporation to sell turboexpander units and its parts, aftermarket and replacement parts for turboexpanders, service of turboexpanders in Viet Nam.

Located in Valencia, California, just north of Los Angeles, L.A. Turbine is the world leader in turboexpander technology. L.A. Turbine specializes in the design, manufacture and repair of application-specific, highly engineered turboexpanders and expander spare parts used in hydrocarbon processing, geothermal power generation, and other power-recovery or refrigeration applications in industrial processes worldwide.
During last years, L.A. Turbine has established a worldwide network to support its valued customers. They have offices in the USA, Europe, and partners over the world.

L.A. Turbine has joined hundreds of customers over the world within the hydrocarbon and chemical processing, power generation, and air separation markets, onshore and offshore. Their client list includes BP, Chevron, Exxon, Freeport LNG, Linde, Ormat, Shell, and Total, PV Gas, to name a few.

Peteco installed Turboexpander at GPP Dinh Co

Turboexpander

Peteco is the reseller for L.A. Turbine Corporation to sell turboexpander units and its parts, aftermarket and replacement parts for turboexpanders, service of turboexpanders in Viet Nam.

Located in Valencia, California, just north of Los Angeles, L.A. Turbine is the world leader in turboexpander technology. L.A. Turbine specializes in the design, manufacture and repair of application-specific, highly engineered turboexpanders and expander spare parts used in hydrocarbon processing, geothermal power generation, and other power-recovery or refrigeration applications in industrial processes worldwide.
During last years, L.A. Turbine has established a worldwide network to support its valued customers. They have offices in the USA, Europe, and partners over the world.

L.A. Turbine has joined hundreds of customers over the world within the hydrocarbon and chemical processing, power generation, and air separation markets, onshore and offshore. Their client list includes BP, Chevron, Exxon, Freeport LNG, Linde, Ormat, Shell, and Total, PV Gas, to name a few.

Peteco installed Turboexpander at GPP Dinh Co

Vapor Recovery

Jordan Technologies designs, manufactures and has actively serviced vapor recovery units (VRUs) since 1980. Jordan Technologies’ units recover a variety of VOCs in truck, rail, marine and tank breathing applications as well as crude, ethanol, and natural gases. As the largest service company for VRUs in the world market, Jordan provides service to the majority of the world’s operational VRUs, including other manufacturer’s equipment.

In 1995 Jordan Technologies expanded to not only servicing competitor’s equipment, but also to building a technologically advanced and reliable VRU. These systems include innovations and modifications based on our many years of service experience. A Jordan Technologies VRU is the most efficient, cost effective unit on the market.

Basic operation

The basic vapor recovery unit system is comprised of pressure swing absorption (PSA) process with two activated carbon bed vessels, alternating on a 15 minute time cycle. Regeneration of the carbon reactors is accomplished primarily by vessel evacuation with a vacuum pump to a pressure level of-27 Hg (3 Hg absolute) and secondly, with ambient air purge into the bed in a controlled manner during the last 25% of the regeneration cycle.

The VOCs (volatile organic compounds) desorbed from the carbon during reactor regeneration are effectively recovered in a single step process that is absorption in a packed tower, counter current flow, absorber. Supply tank absorbent is pumped on skid for use as lean oil in the absorber and as a heat exchange fluid for the vacuum pump.

All product recovered by the system is pumped back to the absorbent supply tank mentioned. Here the enriched recovered liquid product is allowed to disperse throughout the supply tank environment.
Jordan Technologies offers both the dry vacuum pump regeneration system as well as the liquid ring regeneration system.

VRU features

Based on many years of field service experience, Gordan Technologies have taken our knowledge and incorporated it into equipment and systems offering unique design and features that exceed industry needs.
Patented auto tuned vent and regeneration valves to protect vacuum pumps and carbon; increasing the life of the carbon

Patented return pump variable frequency drive level control to prevent gasoline spills
Self cleaning absorber tower with dished head bottom to eliminate confined space entry
Complete HMI control of all components and set points to allow for ease of operation
Remote web access for troubleshooting to reduce downtime
Historical trending of all VRU parameters and alarms
Skid mounted system; shipped and installed in four major parts
All components mounted and completely wired from the factory to skid mounted junction boxes
Skid and components designed for easy accessibility for maintenance and system checks
Reporting package specifically designed to meet Subpart BBBBBB regulations
Smallest industry footprint allows for reduced civil installation cost
Lowest industry energy consumption; reduces energy consumption on average 50% over competitive models
Typical return on investment less than 1 year; providing a quick payback and immediate profit increase
Robust design proven to pass HAZOP reviews by major oil companies globally
Every Jordan Technologies VRU meets local legislative requirements and is backed by Jordan’s unmatched worldwide service base. We have ten manufacturing sites located worldwide.

Vapor Recovery

Jordan Technologies designs, manufactures and has actively serviced vapor recovery units (VRUs) since 1980. Jordan Technologies’ units recover a variety of VOCs in truck, rail, marine and tank breathing applications as well as crude, ethanol, and natural gases. As the largest service company for VRUs in the world market, Jordan provides service to the majority of the world’s operational VRUs, including other manufacturer’s equipment.

In 1995 Jordan Technologies expanded to not only servicing competitor’s equipment, but also to building a technologically advanced and reliable VRU. These systems include innovations and modifications based on our many years of service experience. A Jordan Technologies VRU is the most efficient, cost effective unit on the market.

Basic operation

The basic vapor recovery unit system is comprised of pressure swing absorption (PSA) process with two activated carbon bed vessels, alternating on a 15 minute time cycle. Regeneration of the carbon reactors is accomplished primarily by vessel evacuation with a vacuum pump to a pressure level of-27 Hg (3 Hg absolute) and secondly, with ambient air purge into the bed in a controlled manner during the last 25% of the regeneration cycle.

The VOCs (volatile organic compounds) desorbed from the carbon during reactor regeneration are effectively recovered in a single step process that is absorption in a packed tower, counter current flow, absorber. Supply tank absorbent is pumped on skid for use as lean oil in the absorber and as a heat exchange fluid for the vacuum pump.

All product recovered by the system is pumped back to the absorbent supply tank mentioned. Here the enriched recovered liquid product is allowed to disperse throughout the supply tank environment.
Jordan Technologies offers both the dry vacuum pump regeneration system as well as the liquid ring regeneration system.

VRU features

Based on many years of field service experience, Gordan Technologies have taken our knowledge and incorporated it into equipment and systems offering unique design and features that exceed industry needs.
Patented auto tuned vent and regeneration valves to protect vacuum pumps and carbon; increasing the life of the carbon

Patented return pump variable frequency drive level control to prevent gasoline spills
Self cleaning absorber tower with dished head bottom to eliminate confined space entry
Complete HMI control of all components and set points to allow for ease of operation
Remote web access for troubleshooting to reduce downtime
Historical trending of all VRU parameters and alarms
Skid mounted system; shipped and installed in four major parts
All components mounted and completely wired from the factory to skid mounted junction boxes
Skid and components designed for easy accessibility for maintenance and system checks
Reporting package specifically designed to meet Subpart BBBBBB regulations
Smallest industry footprint allows for reduced civil installation cost
Lowest industry energy consumption; reduces energy consumption on average 50% over competitive models
Typical return on investment less than 1 year; providing a quick payback and immediate profit increase
Robust design proven to pass HAZOP reviews by major oil companies globally
Every Jordan Technologies VRU meets local legislative requirements and is backed by Jordan’s unmatched worldwide service base. We have ten manufacturing sites located worldwide.

Model 850 Flamex Pilot

The Model 850 Pilot is a time-proven product that combines electric spark ignition with continuous spark monitoring, thermocouple monitoring, and retractability. The combination of these highly-demanded features has made the high-alloy, stainless steel Model 850 Pilot one of the most well-received ignition systems on the market. This electric pilot provides a rapid, direct spark every 10 to 20 seconds, ensuring reliable ignition. The Model 850 features an inspirator that induces air into the fuel gas line, creating a combustible mixture for the pilot to ignite.

Model 850 Flamex Pilot

The Model 850 Pilot is a time-proven product that combines electric spark ignition with continuous spark monitoring, thermocouple monitoring, and retractability. The combination of these highly-demanded features has made the high-alloy, stainless steel Model 850 Pilot one of the most well-received ignition systems on the market. This electric pilot provides a rapid, direct spark every 10 to 20 seconds, ensuring reliable ignition. The Model 850 features an inspirator that induces air into the fuel gas line, creating a combustible mixture for the pilot to ignite.

Sonic Flares – VariMach

The VariMach sonic flare tip features spring-actuated variable sonic nozzles that allow the exit area to vary with pressure, ensuring constant sonic velocity of waste gas. This industry-proven technology guarantees sufficient inspiration of air to ensure 100% smokeless combustion and infinite turndown. Radiation levels are also minimized throughout the entire range of flow, yielding shorter stack heights and reducing material costs. Additionally, the VariMach has the lowest purge rate of any flare technology on the market, minimizing utility costs while maintaining flashback protection.

Sonic Flares – VariMach

The VariMach sonic flare tip features spring-actuated variable sonic nozzles that allow the exit area to vary with pressure, ensuring constant sonic velocity of waste gas. This industry-proven technology guarantees sufficient inspiration of air to ensure 100% smokeless combustion and infinite turndown. Radiation levels are also minimized throughout the entire range of flow, yielding shorter stack heights and reducing material costs. Additionally, the VariMach has the lowest purge rate of any flare technology on the market, minimizing utility costs while maintaining flashback protection.

Utility Flare

GENERAL DESCRIPTION

Utility flares are one of the most common and basic flare designs. Utility flares are employed in applications that do not require smokeless burning or in applications where smokeless flaring can be achieved without the use of an additional assist medium. Utility flares therefore, do not require auxiliary gas streams such as steam or air; two fluids normally used to improve smokeless capacity. These flares are typically accompanied by a Dynamic Seal in the base of the tip to reduce purge gas costs and prevent flashback. Additionally, the Flare Industries’ Utility Tip incorporates a flame retention ring to eliminate flame lift-off and provide stable, reliable combustion.

ADVANTAGES

Cost effective (capital as well as operating costs)
Low maintenance costs due to simplicity of design
Stable, reliable combustion

Utility Flare

GENERAL DESCRIPTION

Utility flares are one of the most common and basic flare designs. Utility flares are employed in applications that do not require smokeless burning or in applications where smokeless flaring can be achieved without the use of an additional assist medium. Utility flares therefore, do not require auxiliary gas streams such as steam or air; two fluids normally used to improve smokeless capacity. These flares are typically accompanied by a Dynamic Seal in the base of the tip to reduce purge gas costs and prevent flashback. Additionally, the Flare Industries’ Utility Tip incorporates a flame retention ring to eliminate flame lift-off and provide stable, reliable combustion.

ADVANTAGES

Cost effective (capital as well as operating costs)
Low maintenance costs due to simplicity of design
Stable, reliable combustion

Slot-Fow Ais-Assist Flares (SFVP)

Slot Flow Air Assisted flares are comprised of two concentric risers (waste gas and air) and a blower system that provides supplemental combustion air. Air is fed by the blower into the air riser, to combine with the process gas, which passes through its own secondary riser. Upon mixing, the high-pressure airflow causes turbulence in the waste gas stream, improving mixing, and ultimately combustion efficiency. SFVP flares generally dispose of heavier waste gases which have a greater tendency to smoke.

Slot-Fow Ais-Assist Flares (SFVP)

Slot Flow Air Assisted flares are comprised of two concentric risers (waste gas and air) and a blower system that provides supplemental combustion air. Air is fed by the blower into the air riser, to combine with the process gas, which passes through its own secondary riser. Upon mixing, the high-pressure airflow causes turbulence in the waste gas stream, improving mixing, and ultimately combustion efficiency. SFVP flares generally dispose of heavier waste gases which have a greater tendency to smoke.

Steam Assisted Flares

Steam assisted flares are flares designed to dispose of heavier molecular weight gases which have a tendency to smoke. In order to prevent smoke formation, steam is injected into the waste stream using peripheral steam rings, center stream spargers and/or inner induction tubes. Steam flares are used in applications where high pressure steam is available on site. Steam flares are typically found in downstream applications where high efficiency combustion of heavily hydrocarbons is required.

Steam Assisted Flares

Steam assisted flares are flares designed to dispose of heavier molecular weight gases which have a tendency to smoke. In order to prevent smoke formation, steam is injected into the waste stream using peripheral steam rings, center stream spargers and/or inner induction tubes. Steam flares are used in applications where high pressure steam is available on site. Steam flares are typically found in downstream applications where high efficiency combustion of heavily hydrocarbons is required.

Peacook liquid Burner

The Peacock Burner was developed to flare liquid hydrocarbons without liquid fallout or soot formation (smoke). These burners provide excellent service for well testing operations and have been used in applications in the Gulf of Mexico and Arabian Gulf. When only oil is flared, a high pressure air or gas source is required to provide mechanical atomization which ensures the mixture is a fine mist as it exits the burner nozzle. This particular burner nozzle is designed to accept separate high pressure oil and air/gas streams. for maximum efficiency.

Peacook liquid Burner

The Peacock Burner was developed to flare liquid hydrocarbons without liquid fallout or soot formation (smoke). These burners provide excellent service for well testing operations and have been used in applications in the Gulf of Mexico and Arabian Gulf. When only oil is flared, a high pressure air or gas source is required to provide mechanical atomization which ensures the mixture is a fine mist as it exits the burner nozzle. This particular burner nozzle is designed to accept separate high pressure oil and air/gas streams. for maximum efficiency.

Sonic Flares – Mach 1

Mach-1 Sonic Flares are used in both onshore and offshore applications to dispose of high pressure waste gas streams with high smokeless capacities. By efficiently inducing high volumes of ambient air for more complete, smokeless combustion at sonic velocities, this advanced flaring technology allows for reduced levels of radiation, and can be placed at lower, less visible elevations, allowing for a more cost-effective flaring solution. Mach-1 sonic flare technology can be applied in multi-point orientations which accomodate flame length restrictions.

Sonic Flares – Mach 1

Mach-1 Sonic Flares are used in both onshore and offshore applications to dispose of high pressure waste gas streams with high smokeless capacities. By efficiently inducing high volumes of ambient air for more complete, smokeless combustion at sonic velocities, this advanced flaring technology allows for reduced levels of radiation, and can be placed at lower, less visible elevations, allowing for a more cost-effective flaring solution. Mach-1 sonic flare technology can be applied in multi-point orientations which accomodate flame length restrictions.

Sonic Flares – VariMach

The VariMach sonic flare tip features spring-actuated variable sonic nozzles that allow the exit area to vary with pressure, ensuring constant sonic velocity of waste gas. This industry-proven technology guarantees sufficient inspiration of air to ensure 100% smokeless combustion and infinite turndown. Radiation levels are also minimized throughout the entire range of flow, yielding shorter stack heights and reducing material costs. Additionally, the VariMach has the lowest purge rate of any flare technology on the market, minimizing utility costs while maintaining flashback protection.

Sonic Flares – VariMach

The VariMach sonic flare tip features spring-actuated variable sonic nozzles that allow the exit area to vary with pressure, ensuring constant sonic velocity of waste gas. This industry-proven technology guarantees sufficient inspiration of air to ensure 100% smokeless combustion and infinite turndown. Radiation levels are also minimized throughout the entire range of flow, yielding shorter stack heights and reducing material costs. Additionally, the VariMach has the lowest purge rate of any flare technology on the market, minimizing utility costs while maintaining flashback protection.

Mechanical Vapor Recovery (MVR)

Jordan Technologies s’ mechanical vapor recovery unit (MVR) provides a reliable, low maintenance solution for condensate and liquid storage vapor recovery. The MVR unit is one of Jordan Energy Solutions’ answers to capturing natural gas emissions from oil field stock tanks.
The Jordan MVR unit is a customizable pre-engineered vapor recovery unit capable of moving .018 to 400 MCFD. The MVR unit may use rotary screw, piston or scroll compressors powered with either electric or EPA certified natural gas industrial power plants. Additionally the unit contains state-of-the-art PLC based regulation with an integrated gas blanketing system, not a rough on/off pressure switch and a pump.
Ideal for nonattainment areas where state and federal air quality regulatory requirements require vapor recovery or other emission controls, the MVR unit is an alternative to venting or flaring and will maintain storage tank pressure within safe limits and correct tank operating parameters automatically. This helps you recover every BTU and avoid releasing any vapor into the atmosphere.
High reliability, low maintenance, simple foundations, low operating costs, low initial costs, low consumed power at unloaded condition, and suitability for process fluctuation— such as gas composition and pressure— are some of the basic attributes of the rotary screw compressor MVR unit.
Jordan’s reliable MVR unit is designed using the Jordan Technologies’/Jordan Energy Solutions’ years of experience as a global technology leader in vapor recovery and is based on time-tested rotary screw gas compression technology.

MVR UNIT FEATURES

Based on many years of field service experience, we have taken our knowledge and incorporated it into equipment and systems offering unique design and features that always meet or exceed industry standards.

Fully automated, PLC based operation
Integrated gas blanketing system
Electric or EPA certified natural gas engine
Advanced, easy to use engine and compressor controls
Large capacity water and trash knock-out tank
Easy fill oil separator tank
V-belt or VFD drive for flexible pressure and volume matching
Gas engine oil reservoir with self leveling system
Automatic lubrication system for critical bearings
Rugged skid mounted containment system

Mechanical Vapor Recovery (MVR)

Jordan Technologies s’ mechanical vapor recovery unit (MVR) provides a reliable, low maintenance solution for condensate and liquid storage vapor recovery. The MVR unit is one of Jordan Energy Solutions’ answers to capturing natural gas emissions from oil field stock tanks.
The Jordan MVR unit is a customizable pre-engineered vapor recovery unit capable of moving .018 to 400 MCFD. The MVR unit may use rotary screw, piston or scroll compressors powered with either electric or EPA certified natural gas industrial power plants. Additionally the unit contains state-of-the-art PLC based regulation with an integrated gas blanketing system, not a rough on/off pressure switch and a pump.
Ideal for nonattainment areas where state and federal air quality regulatory requirements require vapor recovery or other emission controls, the MVR unit is an alternative to venting or flaring and will maintain storage tank pressure within safe limits and correct tank operating parameters automatically. This helps you recover every BTU and avoid releasing any vapor into the atmosphere.
High reliability, low maintenance, simple foundations, low operating costs, low initial costs, low consumed power at unloaded condition, and suitability for process fluctuation— such as gas composition and pressure— are some of the basic attributes of the rotary screw compressor MVR unit.
Jordan’s reliable MVR unit is designed using the Jordan Technologies’/Jordan Energy Solutions’ years of experience as a global technology leader in vapor recovery and is based on time-tested rotary screw gas compression technology.

MVR UNIT FEATURES

Based on many years of field service experience, we have taken our knowledge and incorporated it into equipment and systems offering unique design and features that always meet or exceed industry standards.

Fully automated, PLC based operation
Integrated gas blanketing system
Electric or EPA certified natural gas engine
Advanced, easy to use engine and compressor controls
Large capacity water and trash knock-out tank
Easy fill oil separator tank
V-belt or VFD drive for flexible pressure and volume matching
Gas engine oil reservoir with self leveling system
Automatic lubrication system for critical bearings
Rugged skid mounted containment system

Vapor Recovery

Jordan Technologies designs, manufactures and has actively serviced vapor recovery units (VRUs) since 1980. Jordan Technologies’ units recover a variety of VOCs in truck, rail, marine and tank breathing applications as well as crude, ethanol, and natural gases. As the largest service company for VRUs in the world market, Jordan provides service to the majority of the world’s operational VRUs, including other manufacturer’s equipment.

In 1995 Jordan Technologies expanded to not only servicing competitor’s equipment, but also to building a technologically advanced and reliable VRU. These systems include innovations and modifications based on our many years of service experience. A Jordan Technologies VRU is the most efficient, cost effective unit on the market.

Basic operation

The basic vapor recovery unit system is comprised of pressure swing absorption (PSA) process with two activated carbon bed vessels, alternating on a 15 minute time cycle. Regeneration of the carbon reactors is accomplished primarily by vessel evacuation with a vacuum pump to a pressure level of-27 Hg (3 Hg absolute) and secondly, with ambient air purge into the bed in a controlled manner during the last 25% of the regeneration cycle.

The VOCs (volatile organic compounds) desorbed from the carbon during reactor regeneration are effectively recovered in a single step process that is absorption in a packed tower, counter current flow, absorber. Supply tank absorbent is pumped on skid for use as lean oil in the absorber and as a heat exchange fluid for the vacuum pump.

All product recovered by the system is pumped back to the absorbent supply tank mentioned. Here the enriched recovered liquid product is allowed to disperse throughout the supply tank environment.
Jordan Technologies offers both the dry vacuum pump regeneration system as well as the liquid ring regeneration system.

VRU features

Based on many years of field service experience, Gordan Technologies have taken our knowledge and incorporated it into equipment and systems offering unique design and features that exceed industry needs.
Patented auto tuned vent and regeneration valves to protect vacuum pumps and carbon; increasing the life of the carbon

Patented return pump variable frequency drive level control to prevent gasoline spills
Self cleaning absorber tower with dished head bottom to eliminate confined space entry
Complete HMI control of all components and set points to allow for ease of operation
Remote web access for troubleshooting to reduce downtime
Historical trending of all VRU parameters and alarms
Skid mounted system; shipped and installed in four major parts
All components mounted and completely wired from the factory to skid mounted junction boxes
Skid and components designed for easy accessibility for maintenance and system checks
Reporting package specifically designed to meet Subpart BBBBBB regulations
Smallest industry footprint allows for reduced civil installation cost
Lowest industry energy consumption; reduces energy consumption on average 50% over competitive models
Typical return on investment less than 1 year; providing a quick payback and immediate profit increase
Robust design proven to pass HAZOP reviews by major oil companies globally
Every Jordan Technologies VRU meets local legislative requirements and is backed by Jordan’s unmatched worldwide service base. We have ten manufacturing sites located worldwide.

Vapor Recovery

Jordan Technologies designs, manufactures and has actively serviced vapor recovery units (VRUs) since 1980. Jordan Technologies’ units recover a variety of VOCs in truck, rail, marine and tank breathing applications as well as crude, ethanol, and natural gases. As the largest service company for VRUs in the world market, Jordan provides service to the majority of the world’s operational VRUs, including other manufacturer’s equipment.

In 1995 Jordan Technologies expanded to not only servicing competitor’s equipment, but also to building a technologically advanced and reliable VRU. These systems include innovations and modifications based on our many years of service experience. A Jordan Technologies VRU is the most efficient, cost effective unit on the market.

Basic operation

The basic vapor recovery unit system is comprised of pressure swing absorption (PSA) process with two activated carbon bed vessels, alternating on a 15 minute time cycle. Regeneration of the carbon reactors is accomplished primarily by vessel evacuation with a vacuum pump to a pressure level of-27 Hg (3 Hg absolute) and secondly, with ambient air purge into the bed in a controlled manner during the last 25% of the regeneration cycle.

The VOCs (volatile organic compounds) desorbed from the carbon during reactor regeneration are effectively recovered in a single step process that is absorption in a packed tower, counter current flow, absorber. Supply tank absorbent is pumped on skid for use as lean oil in the absorber and as a heat exchange fluid for the vacuum pump.

All product recovered by the system is pumped back to the absorbent supply tank mentioned. Here the enriched recovered liquid product is allowed to disperse throughout the supply tank environment.
Jordan Technologies offers both the dry vacuum pump regeneration system as well as the liquid ring regeneration system.

VRU features

Based on many years of field service experience, Gordan Technologies have taken our knowledge and incorporated it into equipment and systems offering unique design and features that exceed industry needs.
Patented auto tuned vent and regeneration valves to protect vacuum pumps and carbon; increasing the life of the carbon

Patented return pump variable frequency drive level control to prevent gasoline spills
Self cleaning absorber tower with dished head bottom to eliminate confined space entry
Complete HMI control of all components and set points to allow for ease of operation
Remote web access for troubleshooting to reduce downtime
Historical trending of all VRU parameters and alarms
Skid mounted system; shipped and installed in four major parts
All components mounted and completely wired from the factory to skid mounted junction boxes
Skid and components designed for easy accessibility for maintenance and system checks
Reporting package specifically designed to meet Subpart BBBBBB regulations
Smallest industry footprint allows for reduced civil installation cost
Lowest industry energy consumption; reduces energy consumption on average 50% over competitive models
Typical return on investment less than 1 year; providing a quick payback and immediate profit increase
Robust design proven to pass HAZOP reviews by major oil companies globally
Every Jordan Technologies VRU meets local legislative requirements and is backed by Jordan’s unmatched worldwide service base. We have ten manufacturing sites located worldwide.

VaporSep VRU

Jordan Technologies, working collaboratively with Membrane Technology & Research, Inc. (MTR), is pleased to introduce the VaporSep membrane vapor recovery system. Jordan’s years of project management and engineering services experience combined with MTR’s years of membrane development and research allows us to treat a wider range of chemicals and offer an option for recovery other than combustion for tank and truck loading facilities.
Jordan and MTR have significant experience in hydrocarbon recovery systems. More than fifty large units have been installed in petrochemical applications to recover butane, pentane, hexane, and other hydrocarbons. Hundreds more units have been installed for gasoline vapor recovery at truck loading and retail gasoline stations.
The VaporSep VRU is designed specifically to offer a more feasible way to treat vapors that are not compatible with a carbon based system. The membrane’s molecular sieve is custom designed for each application.
Jordan’s operating experience has revealed typical membrane life to be more than five (5) years. One of our earliest installations, a hydrocarbon recovery unit, is still operating with the original membrane modules installed over eight (8) years ago. If replacement is required, the cost is relatively low, and the procedure is very simple. Low maintenance cost and an extended life compared to competitor membrane systems are only a few of the reasons to explore a VaporSep membrane recovery unit and trust Jordan Technologies for your cutting edge vapor recovery solution.

Basic operation

The VaporSep VRU is a membrane-based system that combines compression, absorption, and membrane vapor separation to recover hydrocarbon vapors from truck loading operations. The VRU is designed to treat feed vapors coming from tank or truck loading operations. The unit uses available hydrocarbon liquid as the absorbent medium. Utilities required include only power and instrument air.
The feed stream is first compressed in a liquid ring compressor. The compressor outlet is sent to an absorber, where the gas flows upward and is contacted with downward flowing liquid absorbent. Hydrocarbons are absorbed from the vapor into the liquid. The recovered hydrocarbon liquid stream exits from the bottom of the column and is returned to storage.
The absorber overhead gas is sent to the VaporSep membrane, which separates the stream into a hydrocarbon-depleted residue gas and a hydrocarbon-enriched permeate stream. The residue gas (containing < 10 g/Nm3, or as required by the customer) is vented. The hydrocarbon-enriched permeate stream, at low pressure, is recycled via a vacuum pump to the compressor inlet.
Jordan Technologies’ vapor recovery unit is supplied as a complete skid mounted package (single skid for units up to ~ 500 Nm3/hr, multiple skids for larger units) including feed compressor, vacuum pump, membrane, and absorber.

Vaporsep features & benefits

VaporSep membranes separate gas mixtures on the basis of solubility. Large hydrocarbon molecules with greater solubility in the membrane permeate much faster than smaller, less soluble molecules such as nitrogen, hydrogen, or methane. By comparison, conventional membranes separate gases on the basis of size. Small molecules are selectively permeated because they diffuse through the membrane more rapidly than large molecules.
VaporSep membranes are manufactured as flat sheets and rolled into spiral-wound modules. The feed gas enters the module and flows between the membrane sheets. Spacers on the feed side and the permeate side of the membrane sheets create flow channels. The hydrocarbon vapor that passes preferentially through the membrane flows inward to a central permeate collection pipe. The light gas (nitrogen, hydrogen or methane) is rejected by the membrane and exits as the residue.

VaporSep VRUs provide many important features and benefits:

A better alternative for plants that handle petro-chemicals and chemicals
Compatible with a wider range of hydrocarbons and various crudes
Compact design; a smaller footprint compared to the equal sized carbon system
Steady state process for constant flow design applications
Fewer moving parts and control requirements compared to other technologies
Inlet compressor eliminates process pressure drop issues; inherently safe design
Skid mounted for easy installation, faster commissioning, lower installation costs and simpler transportation requirements
Low maintenance, operation and replacement cost
Proven technology with roughly 200 systems installed in the petrochemical, natural gas, and refining industry.

Low maintenance cost and an extended life compared to competitor membrane systems are only a few of the reasons to explore a VaporSep VRU and trust Jordan Technologies for your cutting edge vapor recovery solution.

VaporSep VRU

Jordan Technologies, working collaboratively with Membrane Technology & Research, Inc. (MTR), is pleased to introduce the VaporSep membrane vapor recovery system. Jordan’s years of project management and engineering services experience combined with MTR’s years of membrane development and research allows us to treat a wider range of chemicals and offer an option for recovery other than combustion for tank and truck loading facilities.
Jordan and MTR have significant experience in hydrocarbon recovery systems. More than fifty large units have been installed in petrochemical applications to recover butane, pentane, hexane, and other hydrocarbons. Hundreds more units have been installed for gasoline vapor recovery at truck loading and retail gasoline stations.
The VaporSep VRU is designed specifically to offer a more feasible way to treat vapors that are not compatible with a carbon based system. The membrane’s molecular sieve is custom designed for each application.
Jordan’s operating experience has revealed typical membrane life to be more than five (5) years. One of our earliest installations, a hydrocarbon recovery unit, is still operating with the original membrane modules installed over eight (8) years ago. If replacement is required, the cost is relatively low, and the procedure is very simple. Low maintenance cost and an extended life compared to competitor membrane systems are only a few of the reasons to explore a VaporSep membrane recovery unit and trust Jordan Technologies for your cutting edge vapor recovery solution.

Basic operation

The VaporSep VRU is a membrane-based system that combines compression, absorption, and membrane vapor separation to recover hydrocarbon vapors from truck loading operations. The VRU is designed to treat feed vapors coming from tank or truck loading operations. The unit uses available hydrocarbon liquid as the absorbent medium. Utilities required include only power and instrument air.
The feed stream is first compressed in a liquid ring compressor. The compressor outlet is sent to an absorber, where the gas flows upward and is contacted with downward flowing liquid absorbent. Hydrocarbons are absorbed from the vapor into the liquid. The recovered hydrocarbon liquid stream exits from the bottom of the column and is returned to storage.
The absorber overhead gas is sent to the VaporSep membrane, which separates the stream into a hydrocarbon-depleted residue gas and a hydrocarbon-enriched permeate stream. The residue gas (containing < 10 g/Nm3, or as required by the customer) is vented. The hydrocarbon-enriched permeate stream, at low pressure, is recycled via a vacuum pump to the compressor inlet.
Jordan Technologies’ vapor recovery unit is supplied as a complete skid mounted package (single skid for units up to ~ 500 Nm3/hr, multiple skids for larger units) including feed compressor, vacuum pump, membrane, and absorber.

Vaporsep features & benefits

VaporSep membranes separate gas mixtures on the basis of solubility. Large hydrocarbon molecules with greater solubility in the membrane permeate much faster than smaller, less soluble molecules such as nitrogen, hydrogen, or methane. By comparison, conventional membranes separate gases on the basis of size. Small molecules are selectively permeated because they diffuse through the membrane more rapidly than large molecules.
VaporSep membranes are manufactured as flat sheets and rolled into spiral-wound modules. The feed gas enters the module and flows between the membrane sheets. Spacers on the feed side and the permeate side of the membrane sheets create flow channels. The hydrocarbon vapor that passes preferentially through the membrane flows inward to a central permeate collection pipe. The light gas (nitrogen, hydrogen or methane) is rejected by the membrane and exits as the residue.

VaporSep VRUs provide many important features and benefits:

A better alternative for plants that handle petro-chemicals and chemicals
Compatible with a wider range of hydrocarbons and various crudes
Compact design; a smaller footprint compared to the equal sized carbon system
Steady state process for constant flow design applications
Fewer moving parts and control requirements compared to other technologies
Inlet compressor eliminates process pressure drop issues; inherently safe design
Skid mounted for easy installation, faster commissioning, lower installation costs and simpler transportation requirements
Low maintenance, operation and replacement cost
Proven technology with roughly 200 systems installed in the petrochemical, natural gas, and refining industry.

Low maintenance cost and an extended life compared to competitor membrane systems are only a few of the reasons to explore a VaporSep VRU and trust Jordan Technologies for your cutting edge vapor recovery solution.

Service Station Vapor Recovery

Attain Stage I compliance and make money. Service stations can now directly benefit from Jordan’s vapor recovery technology with our MT vapor recovery unit (VRU).

Miniaturized VRU technology recovers vapors from evaporative loss and product transfer and returns them to your service station storage tank as product you can resell. The Jordan Technologies MT-VRU is unique in the world marketplace today. In a single day, without costly construction, modifications to your facility’s existing piping or downtime, you can capture all Stage I VOCs and keep the recovered product in your underground storage tank. A MT-VRU requires only single phase power and has an extremely small footprint.

Jordan understands that traditionally displaced vapors are captured in a closed loop system between your underground tanks and the delivery truck’s tanker trailer. Jordan Technologies’ MT-VRU allows you to recover all of the vapors produced during product unloading, establish Stage I (truck unloading) vapor recovery compliance, return the captured VOCs to your underground tank and still allow you to realize fuel savings that pays for the technology.

The MT unit recovers evaporative vapors and Stage I vapors created during product delivery to the service station’s underground storage tanks.
As the delivery truck drops the load, vapor is generated and pushed out of the storage tank and into the MT unit via the vapor return line for separation and collection.
A single carbon bed designed to take the maximum vapor load generated during truck unloading accepts the generated vapors. As the vapors travel into and out of the carbon bed, clean air discharges into the atmosphere.
Once the truck unloading operation is complete, the MT unit is set for the regeneration mode. The vacuum pump de-absorbs the captured (rich) hydrocarbon vapors and discharges the saturated volatile organic compounds (VOCs) directly into the underground gasoline storage tank.
Once the saturated vapors are discharged into the liquid gasoline they may be readily absorbed into the gasoline.
Vacuum regeneration of the MT unit requires a fixed amount of time during which no other delivery can be made to the facility. During MT unit regeneration, gasoline loading at the dispensing area may continue uninterrupted.M2 basic operation

The components of the completely automatic M2 VRU include two carbon beds, a regeneration vacuum pump, a group of eight switching valves, a temperature switch and optional water cooled heat exchanger.
Excess vapors generated from the dispensing area or underground tanks are sent via the vapor pipe to the inlet of the M2 carbon pressure swing unit. The carbon beds operate on a 15-minute pressure swing cycle. While one bed is on line accepting and processing vapors, the other is off line being cleaned (vacuum regenerated) by the pump.
Vapors travel into and out of the online carbon taking a maximum load of vapors generated in a 15 minute period. The carbon bed is collecting the volatile organic vapors on the carbon and venting clean air out of the vent.
The vacuum pump of the regenerating (offline) bed de-adsorbs the captured (rich) hydrocarbon vapors and discharges the saturated volatile organic compounds directly into the liquid gasoline in the underground gasoline storage tank. Site specifics, like storage tank size, ambient heat, and the vapor pressures of stored petroleum liquid dictate the need for the optional water cooled heat exchanger.
Once the saturated vapors are discharged into the liquid gasoline they may be readily absorbed into the gasoline. Depending on temperature and vapor pressure characteristics of the stored gasoline, absorption may not be 100% efficient. Remaining vapors will discharge from the storage tank and mix once again with vapors from the dispensing area and cycle through the process outlined above.
Our process allows the service station tanks to remain under a slight negative pressure at all times. This prevents fugitive emissions from the tanks that no other systems can offer today.

MT-VRU features

Based on years of VRU service and engineering experience, Jordan Technologies now offers VRU technology with unique design and features for service station VOC recovery.

Easy, one-day installation
No modifications to your facility’s existing piping or concrete required
Small footprint
Low power consumption; only single phase power required
Proven technology for VOC handling
Creates and maintains slight negative pressure in your storage tank to prevent fugitive emissions
Recovered vapors = more product = increased profit

Service Station Vapor Recovery

Attain Stage I compliance and make money. Service stations can now directly benefit from Jordan’s vapor recovery technology with our MT vapor recovery unit (VRU).

Miniaturized VRU technology recovers vapors from evaporative loss and product transfer and returns them to your service station storage tank as product you can resell. The Jordan Technologies MT-VRU is unique in the world marketplace today. In a single day, without costly construction, modifications to your facility’s existing piping or downtime, you can capture all Stage I VOCs and keep the recovered product in your underground storage tank. A MT-VRU requires only single phase power and has an extremely small footprint.

Jordan understands that traditionally displaced vapors are captured in a closed loop system between your underground tanks and the delivery truck’s tanker trailer. Jordan Technologies’ MT-VRU allows you to recover all of the vapors produced during product unloading, establish Stage I (truck unloading) vapor recovery compliance, return the captured VOCs to your underground tank and still allow you to realize fuel savings that pays for the technology.

The MT unit recovers evaporative vapors and Stage I vapors created during product delivery to the service station’s underground storage tanks.
As the delivery truck drops the load, vapor is generated and pushed out of the storage tank and into the MT unit via the vapor return line for separation and collection.
A single carbon bed designed to take the maximum vapor load generated during truck unloading accepts the generated vapors. As the vapors travel into and out of the carbon bed, clean air discharges into the atmosphere.
Once the truck unloading operation is complete, the MT unit is set for the regeneration mode. The vacuum pump de-absorbs the captured (rich) hydrocarbon vapors and discharges the saturated volatile organic compounds (VOCs) directly into the underground gasoline storage tank.
Once the saturated vapors are discharged into the liquid gasoline they may be readily absorbed into the gasoline.
Vacuum regeneration of the MT unit requires a fixed amount of time during which no other delivery can be made to the facility. During MT unit regeneration, gasoline loading at the dispensing area may continue uninterrupted.M2 basic operation

The components of the completely automatic M2 VRU include two carbon beds, a regeneration vacuum pump, a group of eight switching valves, a temperature switch and optional water cooled heat exchanger.
Excess vapors generated from the dispensing area or underground tanks are sent via the vapor pipe to the inlet of the M2 carbon pressure swing unit. The carbon beds operate on a 15-minute pressure swing cycle. While one bed is on line accepting and processing vapors, the other is off line being cleaned (vacuum regenerated) by the pump.
Vapors travel into and out of the online carbon taking a maximum load of vapors generated in a 15 minute period. The carbon bed is collecting the volatile organic vapors on the carbon and venting clean air out of the vent.
The vacuum pump of the regenerating (offline) bed de-adsorbs the captured (rich) hydrocarbon vapors and discharges the saturated volatile organic compounds directly into the liquid gasoline in the underground gasoline storage tank. Site specifics, like storage tank size, ambient heat, and the vapor pressures of stored petroleum liquid dictate the need for the optional water cooled heat exchanger.
Once the saturated vapors are discharged into the liquid gasoline they may be readily absorbed into the gasoline. Depending on temperature and vapor pressure characteristics of the stored gasoline, absorption may not be 100% efficient. Remaining vapors will discharge from the storage tank and mix once again with vapors from the dispensing area and cycle through the process outlined above.
Our process allows the service station tanks to remain under a slight negative pressure at all times. This prevents fugitive emissions from the tanks that no other systems can offer today.

MT-VRU features

Based on years of VRU service and engineering experience, Jordan Technologies now offers VRU technology with unique design and features for service station VOC recovery.

Easy, one-day installation
No modifications to your facility’s existing piping or concrete required
Small footprint
Low power consumption; only single phase power required
Proven technology for VOC handling
Creates and maintains slight negative pressure in your storage tank to prevent fugitive emissions
Recovered vapors = more product = increased profit

Vapor Combustion

As an alternative to recovery, hydrocarbon vapors may be destroyed in a flare, combustor or a thermal oxidizer. For many applications, a device known as a combustor can be successfully used as a safe and economical method of controlling vapors from the handling, storage, or loading of volatile liquid hydrocarbons or ethanol when recovery of the vapors is not a viable option.

Jordan Technologies has experience manufacturing and servicing all types of vapor combustion units (VCUs) including units for special applications such as marine vapor control or non-motor fuel vapor control. Jordan’s VCUs are guaranteed to meet all safety regulations and currently mandated emissions limits. Custom vapor combustion devices are also available.

Vapor combustors are designed to safely burn vapor mixtures consisting of hydrocarbons. This mixture may, or may not, be within the flammable range of the vapors being destroyed. Vapor combustors can be configured as an open type, where the flame is elevated and visible; or as an enclosed type, where the flame is generally near grade level and enclosed in an insulated combustion chamber or stack.

The equipment provided for both systems is similar. The major equipment items included in a combustor system are the stack, anti-flash back burners with an ignition system, assists air blowers for smokeless burning, velocity control or staging valve(s) and deflagration arrestor(s).

Basic operation

The vapor mixture flows into the vapor collection system at the loading facility and through the vapor header that connects the loading facility with the VCU. The vapor mixture then flows through an in-line detonation arrestor that is equipped with a temperature switch on one face of the detonation arrestor element.

As the vapor mixture flow continues, the pressure will increase in the vapor piping. This increase in pressure is sensed by pressure controls located at the VCU. When the pressure reaches a predetermined level, the vapor-staging valve will open automatically allowing the vapor mixture to flow to the burner elements where the combustible vapors are ignited by the pilot and burned. The assist-air blower is provided to furnish some of the air required for combustion and to provide mixing of combustion air with the vapor mixture. This ensures that the combustion remains smokeless.

The temperature management system, if selected, controls the temperature within the combustion stack by controlling the amount of air that flows into the combustion zone, while also controlling the amount of supplemental fuel gas that is injected into the combustion zone. The temperature is managed automatically during operation by controlling the position of the adjustable air dampers and the assist gas flow. Finally, when the transfer operation is completed, the VCU will automatically turn off the assist air blower and pilot, and then await an automatic re-start when more loading is about to begin.

VCU features

The standard Jordan Technologies vapor combustion unit (VCU) is an enclosed combustion system and incorporates the following features:

Ceramic fiber refractory lined combustion chamber
Smokeless burner(s) specially designed to reduce the possibility of a flashback
PLC based control system with an automatic ignition system and safety monitoring
Automatic actuated vapor staging valve(s)
Combustion air blower for the anti flashback burners
Detonation arrestor with high temperature monitor in the main vapor piping
NEMA 4 control panel with all necessary instrumentation and controls for automatic and low maintenance operation
Advanced temperature control technology to reduce assist gas usage
Advanced pilot technology that reduces pilot fuel consumption up to 75% over competitor models
Easy to use touch panel operator interface
The standard Jordan Technologies VCU is a pre-packaged unit requiring only minor field assembly for easy installation and cost savings to our customers.

Vapor Combustion

As an alternative to recovery, hydrocarbon vapors may be destroyed in a flare, combustor or a thermal oxidizer. For many applications, a device known as a combustor can be successfully used as a safe and economical method of controlling vapors from the handling, storage, or loading of volatile liquid hydrocarbons or ethanol when recovery of the vapors is not a viable option.

Jordan Technologies has experience manufacturing and servicing all types of vapor combustion units (VCUs) including units for special applications such as marine vapor control or non-motor fuel vapor control. Jordan’s VCUs are guaranteed to meet all safety regulations and currently mandated emissions limits. Custom vapor combustion devices are also available.

Vapor combustors are designed to safely burn vapor mixtures consisting of hydrocarbons. This mixture may, or may not, be within the flammable range of the vapors being destroyed. Vapor combustors can be configured as an open type, where the flame is elevated and visible; or as an enclosed type, where the flame is generally near grade level and enclosed in an insulated combustion chamber or stack.

The equipment provided for both systems is similar. The major equipment items included in a combustor system are the stack, anti-flash back burners with an ignition system, assists air blowers for smokeless burning, velocity control or staging valve(s) and deflagration arrestor(s).

Basic operation

The vapor mixture flows into the vapor collection system at the loading facility and through the vapor header that connects the loading facility with the VCU. The vapor mixture then flows through an in-line detonation arrestor that is equipped with a temperature switch on one face of the detonation arrestor element.

As the vapor mixture flow continues, the pressure will increase in the vapor piping. This increase in pressure is sensed by pressure controls located at the VCU. When the pressure reaches a predetermined level, the vapor-staging valve will open automatically allowing the vapor mixture to flow to the burner elements where the combustible vapors are ignited by the pilot and burned. The assist-air blower is provided to furnish some of the air required for combustion and to provide mixing of combustion air with the vapor mixture. This ensures that the combustion remains smokeless.

The temperature management system, if selected, controls the temperature within the combustion stack by controlling the amount of air that flows into the combustion zone, while also controlling the amount of supplemental fuel gas that is injected into the combustion zone. The temperature is managed automatically during operation by controlling the position of the adjustable air dampers and the assist gas flow. Finally, when the transfer operation is completed, the VCU will automatically turn off the assist air blower and pilot, and then await an automatic re-start when more loading is about to begin.

VCU features

The standard Jordan Technologies vapor combustion unit (VCU) is an enclosed combustion system and incorporates the following features:

Ceramic fiber refractory lined combustion chamber
Smokeless burner(s) specially designed to reduce the possibility of a flashback
PLC based control system with an automatic ignition system and safety monitoring
Automatic actuated vapor staging valve(s)
Combustion air blower for the anti flashback burners
Detonation arrestor with high temperature monitor in the main vapor piping
NEMA 4 control panel with all necessary instrumentation and controls for automatic and low maintenance operation
Advanced temperature control technology to reduce assist gas usage
Advanced pilot technology that reduces pilot fuel consumption up to 75% over competitor models
Easy to use touch panel operator interface
The standard Jordan Technologies VCU is a pre-packaged unit requiring only minor field assembly for easy installation and cost savings to our customers.

Turboexpander

Peteco is the reseller for L.A. Turbine Corporation to sell turboexpander units and its parts, aftermarket and replacement parts for turboexpanders, service of turboexpanders in Viet Nam.

Located in Valencia, California, just north of Los Angeles, L.A. Turbine is the world leader in turboexpander technology. L.A. Turbine specializes in the design, manufacture and repair of application-specific, highly engineered turboexpanders and expander spare parts used in hydrocarbon processing, geothermal power generation, and other power-recovery or refrigeration applications in industrial processes worldwide.
During last years, L.A. Turbine has established a worldwide network to support its valued customers. They have offices in the USA, Europe, and partners over the world.

L.A. Turbine has joined hundreds of customers over the world within the hydrocarbon and chemical processing, power generation, and air separation markets, onshore and offshore. Their client list includes BP, Chevron, Exxon, Freeport LNG, Linde, Ormat, Shell, and Total, PV Gas, to name a few.

Peteco installed Turboexpander at GPP Dinh Co

Turboexpander

Peteco is the reseller for L.A. Turbine Corporation to sell turboexpander units and its parts, aftermarket and replacement parts for turboexpanders, service of turboexpanders in Viet Nam.

Located in Valencia, California, just north of Los Angeles, L.A. Turbine is the world leader in turboexpander technology. L.A. Turbine specializes in the design, manufacture and repair of application-specific, highly engineered turboexpanders and expander spare parts used in hydrocarbon processing, geothermal power generation, and other power-recovery or refrigeration applications in industrial processes worldwide.
During last years, L.A. Turbine has established a worldwide network to support its valued customers. They have offices in the USA, Europe, and partners over the world.

L.A. Turbine has joined hundreds of customers over the world within the hydrocarbon and chemical processing, power generation, and air separation markets, onshore and offshore. Their client list includes BP, Chevron, Exxon, Freeport LNG, Linde, Ormat, Shell, and Total, PV Gas, to name a few.

Peteco installed Turboexpander at GPP Dinh Co

Turbine Phosphate ester fire-resistant oil purifier

Description: Phosphate ester fire retardant hydraulic oil purifier uses vacuum distillation, multistage filter core and ion exchange technology to remove acids, impurities, water vapor and gases from phosphate ester base oils.

All parts in contact with oil of the machine such as pipes and tanks are made of anti-corrosion and acid-resistant materials, making the machine durable and safe. Filters are commonly used in metallurgy, gas turbines, thermal power …

Function: Remove impurities, gas, acid and water in oil.

Technology: Coalescer filter, ion-exchange filter and vacuum distillation.

Specifications table

Operation Diagram

Turbine Phosphate ester fire-resistant oil purifier

Description: Phosphate ester fire retardant hydraulic oil purifier uses vacuum distillation, multistage filter core and ion exchange technology to remove acids, impurities, water vapor and gases from phosphate ester base oils.

All parts in contact with oil of the machine such as pipes and tanks are made of anti-corrosion and acid-resistant materials, making the machine durable and safe. Filters are commonly used in metallurgy, gas turbines, thermal power …

Function: Remove impurities, gas, acid and water in oil.

Technology: Coalescer filter, ion-exchange filter and vacuum distillation.

Specifications table

Operation Diagram

Double Stage Transformer Oil Purifier

Description: The two-stage vacuum insulating oil purifier can quickly and effectively remove moisture, gases (hydrogen, acetylene, methane, etc.) and impurities from the insulating oil, to improve the oil dielectric performance. The insulating oil after filtering has a high breakdown voltage value, low water and gas content in the oil, and high oil cleanliness. Oil after filtering can continue to be used many times. The machine is not only capable of handling standard insulating oils in 110kV-550kV transformers, but also applicable to high grade and super grade insulating oils.

Function: Remove impurities, gas and water in oil.

Technology: Coalescer filter and vacuum distillation.

Specifications table

Operation Diagram:

Double Stage Transformer Oil Purifier

Description: The two-stage vacuum insulating oil purifier can quickly and effectively remove moisture, gases (hydrogen, acetylene, methane, etc.) and impurities from the insulating oil, to improve the oil dielectric performance. The insulating oil after filtering has a high breakdown voltage value, low water and gas content in the oil, and high oil cleanliness. Oil after filtering can continue to be used many times. The machine is not only capable of handling standard insulating oils in 110kV-550kV transformers, but also applicable to high grade and super grade insulating oils.

Function: Remove impurities, gas and water in oil.

Technology: Coalescer filter and vacuum distillation.

Specifications table

Operation Diagram:

Vacuum Lude Oil Purifier

Description: Vacuum lubricating oil purifier mainly treats mechanical oil, lubricating oil, hydraulic oil, air compressor oil, turbine oil contaminated with water and impurities.

The machine adopts vacuum distillation technique and polymer filter to quickly and effectively remove water, gas, impurities and volatile substances (such as alcohol, gasoline, ammonia…), thereby restoring the oil’s viscosity. , flash point and other performance indicators.

The oil after being filtered has emulsification value, low water and gas content, and high purity. Suitable for cleaning and regenerating industrial oils in mechanical engineering, metallurgy, shipping, thermal power…

Function: Remove impurities, gas and water in oil.

Technology: Coalescer filter and vacuum distillation.

Specifications table

Opertation Diagram

Vacuum Lude Oil Purifier

Description: Vacuum lubricating oil purifier mainly treats mechanical oil, lubricating oil, hydraulic oil, air compressor oil, turbine oil contaminated with water and impurities.

The machine adopts vacuum distillation technique and polymer filter to quickly and effectively remove water, gas, impurities and volatile substances (such as alcohol, gasoline, ammonia…), thereby restoring the oil’s viscosity. , flash point and other performance indicators.

The oil after being filtered has emulsification value, low water and gas content, and high purity. Suitable for cleaning and regenerating industrial oils in mechanical engineering, metallurgy, shipping, thermal power…

Function: Remove impurities, gas and water in oil.

Technology: Coalescer filter and vacuum distillation.

Specifications table

Opertation Diagram

Turbine Oil Purifier

Description: Vacuum turbine oil purifier is designed specifically to treat turbine oil contaminated with water and impurities. The machine applies vacuum distillation technology and a high-molecular polymer filter that easily removes water, acid, gas and impurities in turbine oil. The oil after being filtered has emulsification value, low water and gas content, and high purity. The machine is widely used in mechanical engineering, metallurgy, water transport, hydroelectricity, thermal power…

Function: Remove impurities, gas, acid and water in turbine oil.

Technology: Coalescer filter and vacuum distillation.

Specifications table:

Operation Diagram:

Turbine Oil Purifier

Description: Vacuum turbine oil purifier is designed specifically to treat turbine oil contaminated with water and impurities. The machine applies vacuum distillation technology and a high-molecular polymer filter that easily removes water, acid, gas and impurities in turbine oil. The oil after being filtered has emulsification value, low water and gas content, and high purity. The machine is widely used in mechanical engineering, metallurgy, water transport, hydroelectricity, thermal power…

Function: Remove impurities, gas, acid and water in turbine oil.

Technology: Coalescer filter and vacuum distillation.

Specifications table:

Operation Diagram:

Plate Press Oil Purifier

Description: The plate press oil purifier uses filter paper to remove small amounts of water and impurities as small as 1-3µm in the oil. The transfer machine is used to filter out small impurities in lubricating oil, cooling oil, transformer oil, turbine oil, engine oil, diesel oil, hydraulic oil, etc.

The advantages of the machine are simple structure, easy operation and low operating cost. Suitable for cleaning and regenerating industrial oils in mechanical engineering, petroleum, chemical, metallurgy, shipping, thermal power and other industries.

Function: Remove impurities in oil.

Technology: Polymer filter membrane.

Specifications table

Operation Diagram

Plate Press Oil Purifier

Description: The plate press oil purifier uses filter paper to remove small amounts of water and impurities as small as 1-3µm in the oil. The transfer machine is used to filter out small impurities in lubricating oil, cooling oil, transformer oil, turbine oil, engine oil, diesel oil, hydraulic oil, etc.

The advantages of the machine are simple structure, easy operation and low operating cost. Suitable for cleaning and regenerating industrial oils in mechanical engineering, petroleum, chemical, metallurgy, shipping, thermal power and other industries.

Function: Remove impurities in oil.

Technology: Polymer filter membrane.

Specifications table

Operation Diagram

NASA technology oil purifier

Description: NASA technology oil purifiers are specifically designed to remove impurities, deposits, oxidants, free water and emulsions in oil. The device is applied with unique cellulose filter technology, which gives the machine the ability to filter out very small impurities and water, thereby extending the life of lubricating oil by 5 times.

The advantages of the machine are simple structure, easy handling and low operating cost. Modular filter design that can be connected in parallel.

Function: Remove impurities, gas and water.

Technology: Cellulose filter (NASA technology).

Specifications table

NASA technology oil purifier

Description: NASA technology oil purifiers are specifically designed to remove impurities, deposits, oxidants, free water and emulsions in oil. The device is applied with unique cellulose filter technology, which gives the machine the ability to filter out very small impurities and water, thereby extending the life of lubricating oil by 5 times.

The advantages of the machine are simple structure, easy handling and low operating cost. Modular filter design that can be connected in parallel.

Function: Remove impurities, gas and water.

Technology: Cellulose filter (NASA technology).

Specifications table

Portable H-Shape Gas Cutting Machine

Description: The Mini-Mantis II comes standard with the ST Short torch and the available option of adding the LT torch.

Features:

■ Oxy Fuel Beam Cutter
Bevel or straight cut steel beams
■ Automatic Pilot Flame
Set pre-heat only once; pilot flame between cuts saves time and gas
■ Three Rail Sizes
For efficient set-up in cutting web
■ Long Flange Bar Option For cutting of longer flanges
■ 4-Way Jog Direction Control
Automates vertical and horizontal travel
■ Adjustable Rail and Rack Bar Angle
Allows diagonal cuts on web and flange
■ Lightweight and Portable
Total weight including rail is only 20kg (44Ibs), making it easy to carry from place to place; small size allows use in tight spaces
■ High Quality Tips
Koike’s superior design Series 100 torch tips are included to ensure fast, smooth cuts

Portable H-Shape Gas Cutting Machine

Description: The Mini-Mantis II comes standard with the ST Short torch and the available option of adding the LT torch.

Features:

■ Oxy Fuel Beam Cutter
Bevel or straight cut steel beams
■ Automatic Pilot Flame
Set pre-heat only once; pilot flame between cuts saves time and gas
■ Three Rail Sizes
For efficient set-up in cutting web
■ Long Flange Bar Option For cutting of longer flanges
■ 4-Way Jog Direction Control
Automates vertical and horizontal travel
■ Adjustable Rail and Rack Bar Angle
Allows diagonal cuts on web and flange
■ Lightweight and Portable
Total weight including rail is only 20kg (44Ibs), making it easy to carry from place to place; small size allows use in tight spaces
■ High Quality Tips
Koike’s superior design Series 100 torch tips are included to ensure fast, smooth cuts

Pipe Cutting / Prepping

Description: The tool can cut the Pneumatic or Hydraulic (8 – 36”)

Pipe Cutting / Prepping

Description: The tool can cut the Pneumatic or Hydraulic (8 – 36”)

Portable Welding / Plasma / Oxy-Fuel Cutting Machine

Description: Versatile gas / plasma cutter and welding carriage

Features:

Designed for multiple purpose use
Extremely smooth travel thanks to Koike’s exclusive double cone stepless speed control system
Cuts circle from 1-1/2 in -104 in. (40-2650)
Extendable 72 in (1800 mm) track sections
Available circle track and other accessories for maximum flexibility
10 optional cutting torch sets precisely perform I to V cutting, as well as K,X and Y
cutting capacity up to 24 in,.(600mm) with Epoch 600 torch
Weight with (S-100 torch Set):25 lbs.(11.5kg)

Portable Welding / Plasma / Oxy-Fuel Cutting Machine

Description: Versatile gas / plasma cutter and welding carriage

Features:

Designed for multiple purpose use
Extremely smooth travel thanks to Koike’s exclusive double cone stepless speed control system
Cuts circle from 1-1/2 in -104 in. (40-2650)
Extendable 72 in (1800 mm) track sections
Available circle track and other accessories for maximum flexibility
10 optional cutting torch sets precisely perform I to V cutting, as well as K,X and Y
cutting capacity up to 24 in,.(600mm) with Epoch 600 torch
Weight with (S-100 torch Set):25 lbs.(11.5kg)

Direct Cylinder Pressure Type Handy Burners For Propane

Description:

●Melting tar and asphalt ・Pre-Heating for mold ・Pre-Heating for welding ・Roofing and Waterproofing
●Removing paint and rusting ・Heating for piping,Brazing ・Glass and Precious metal processing
●Browning foods・Roasting the soil and Burning weed and bush ・Forest pests ・Disinfection of cattle house
●Melting snow and ice

Features:

●Can get 1200℃ of high temperatue flame only with LPG cylinder.
●Can use burners only to connect directly to LPG cylinder without using pressure regulator. (Use LPG at more)
●All parts connections are metal-to-metal contact without using sealing materials.
●High-Pressure Hose (RB-502) made with small diameter realizes flexibility to make operation smoothy.
●Small burner, RB-102 for food processing is made of stainless steell and aluminum to avoid rusting than 2kgf/cm2

Direct Cylinder Pressure Type Handy Burners For Propane

Description:

●Melting tar and asphalt ・Pre-Heating for mold ・Pre-Heating for welding ・Roofing and Waterproofing
●Removing paint and rusting ・Heating for piping,Brazing ・Glass and Precious metal processing
●Browning foods・Roasting the soil and Burning weed and bush ・Forest pests ・Disinfection of cattle house
●Melting snow and ice

Features:

●Can get 1200℃ of high temperatue flame only with LPG cylinder.
●Can use burners only to connect directly to LPG cylinder without using pressure regulator. (Use LPG at more)
●All parts connections are metal-to-metal contact without using sealing materials.
●High-Pressure Hose (RB-502) made with small diameter realizes flexibility to make operation smoothy.
●Small burner, RB-102 for food processing is made of stainless steell and aluminum to avoid rusting than 2kgf/cm2

Original Type Hand Cutting Torches (Torch Mixing Type)

Description: Original Type Hand Cutting Torches (Torch Mixing Type). ”NEW- GLITTER” For Oxy- Acetylen/ Oxy -propane

Features:

Hard stainless-steel made torch-tubes are lead long service-life.
The lightest weight (530g) is good for long time operation.
New designed valve spindle is easy to replace.
Silver plated special cutting tips are free from spatter.
Individual oxygen and gas lines are legalized most safety.

Original Type Hand Cutting Torches (Torch Mixing Type)

Description: Original Type Hand Cutting Torches (Torch Mixing Type). ”NEW- GLITTER” For Oxy- Acetylen/ Oxy -propane

Features:

Hard stainless-steel made torch-tubes are lead long service-life.
The lightest weight (530g) is good for long time operation.
New designed valve spindle is easy to replace.
Silver plated special cutting tips are free from spatter.
Individual oxygen and gas lines are legalized most safety.

Swage Type Hand Welding Torches

Description: Swage Type Hand Welding Torches For Oxy- Acetylene

Swage Type Hand Welding Torches

Description: Swage Type Hand Welding Torches For Oxy- Acetylene

ZFLOW – 5849

State of the art measurement technology, synchronized digital signal processing and reliable data communication with user friendly operator interface makes ZFLOW-5849 the preferred choice for the operators. Versatile communication protocols ensure easy integration with complex SCADA/HMI systems.
KEY ASPECTS:

Sharing of the transmitters between metering streams is possible
PRT sensors can be connected directly to the flow computer; no temperature transmitter is required
Power supply output for transmitters is provided; no separate power supply units required.
Additional I/O modules expand the metering capability of the flow computer with moderated additional cost only.
Flexible communication capabilities allows easy system integration

ZFLOW – 5849

State of the art measurement technology, synchronized digital signal processing and reliable data communication with user friendly operator interface makes ZFLOW-5849 the preferred choice for the operators. Versatile communication protocols ensure easy integration with complex SCADA/HMI systems.
KEY ASPECTS:

Sharing of the transmitters between metering streams is possible
PRT sensors can be connected directly to the flow computer; no temperature transmitter is required
Power supply output for transmitters is provided; no separate power supply units required.
Additional I/O modules expand the metering capability of the flow computer with moderated additional cost only.
Flexible communication capabilities allows easy system integration

Restriction Orifice Plates

• Wide range of materials

• Proven technology

• Suitable for most pipe sizes

• Orifice sizing on request

General Description

Restriction orifice plates can be used as a simple pressure reducing device, or to limit the flow rate in a pipeline.

They are designed to slip between pipe flanges. Versions to suit RTJ type flanges are available

Dimensions

The outside diameter of the orifice plate is equal to the bolt circle diameter of the connecting flanges minus the diameter of the bolt. This ensures that the plate is centred accurately in the line.

Plate thicknesses depend on line size and differential pressure, and should be sufficient to prevent the plate from bending under operating conditions.

Orifice plates can be made in accordance with customer drawings as required.

Materials

Standard material grades include 316 Stainless Steel, 304 Stainless Steel, 310 Stainless Steel, Hastelloy® C276, Hastelloy® B3, Duplex Stainless Steel, Super Duplex Stainless Steel, Monel® 400, Carbon Steel, Titanium, Incoloy® 800, Incoloy® 825, Inconel® 600, Inconel® 625, Tantalum, PTFE and PVDF.

Orifice Bore Sizing

Orifice calculations are performed generally in accordance with the formulae detailed in RW Miller’s Flow Measurement Handbook , when requested.

Restriction Orifice Plates

• Wide range of materials

• Proven technology

• Suitable for most pipe sizes

• Orifice sizing on request

General Description

Restriction orifice plates can be used as a simple pressure reducing device, or to limit the flow rate in a pipeline.

They are designed to slip between pipe flanges. Versions to suit RTJ type flanges are available

Dimensions

The outside diameter of the orifice plate is equal to the bolt circle diameter of the connecting flanges minus the diameter of the bolt. This ensures that the plate is centred accurately in the line.

Plate thicknesses depend on line size and differential pressure, and should be sufficient to prevent the plate from bending under operating conditions.

Orifice plates can be made in accordance with customer drawings as required.

Materials

Standard material grades include 316 Stainless Steel, 304 Stainless Steel, 310 Stainless Steel, Hastelloy® C276, Hastelloy® B3, Duplex Stainless Steel, Super Duplex Stainless Steel, Monel® 400, Carbon Steel, Titanium, Incoloy® 800, Incoloy® 825, Inconel® 600, Inconel® 625, Tantalum, PTFE and PVDF.

Orifice Bore Sizing

Orifice calculations are performed generally in accordance with the formulae detailed in RW Miller’s Flow Measurement Handbook , when requested.

Orifice Plates

The most common and widely used differential producers, suitable for a wide range of flow measurement applications in line sizes of 50 mm and above. Choose ‘concentric square edged’ for general application, ‘conical entrance’ or ‘quarter circle’ for low Reynolds number flows, and ‘segmental’ or ‘eccentric’ for flows containing light solids and slurries.

Tab Handled Orifice Plates

• Design to BS EN ISO 5167

• Range of Orifice Types

– Concentric Square Edge

– Conical Entrance

– Quarter Circle

– Segmental

– Eccentric

• Wide range of materials

• Proven technology

• Suitable for 1” lines and above

• Orifice sizing on request

Orifice Plates

The most common and widely used differential producers, suitable for a wide range of flow measurement applications in line sizes of 50 mm and above. Choose ‘concentric square edged’ for general application, ‘conical entrance’ or ‘quarter circle’ for low Reynolds number flows, and ‘segmental’ or ‘eccentric’ for flows containing light solids and slurries.

Tab Handled Orifice Plates

• Design to BS EN ISO 5167

• Range of Orifice Types

– Concentric Square Edge

– Conical Entrance

– Quarter Circle

– Segmental

– Eccentric

• Wide range of materials

• Proven technology

• Suitable for 1” lines and above

• Orifice sizing on request

DT1 & DT2

DT1 General Purpose Digital Thermometers

The Rototherm DT1 is a micro processor based, battery operated, continuous reading, type K thermocouple input digital thermometer.

Two basic versions are available, both have clear four digit LCD displays with 12.7mm high characters and 1ºC/ºF resolution. 4/20mA signal re-transmission and MAX / MIN temperature logging can also be incorporated.

The DT1-1 is a 316 stainless steel rigid stem temperature indicator. The stem can be either 12.7mm or 6.35mm diameter with a reduced tip for fast response. The stem length and fitting, if required, can be user specified. The DT1-1 can be mounted directly on to a pipe line or vessel where direct, local temperature indication is required.

The DT1-2 is a remote reading instrument, designed for mounting on a panel, either with a three hole front flange or a back flange for surface mounting. The indicator is connected to the sensor by a 3mm diameter stainless steel mineral insulated cable which can be fitted with a compression fitting if required.

DT2 Digital Thermometers

Using common construction to the DT1, the DT2 is a high accuracy, high resolution digital temperature indicator. The DT2 uses a precision three wire thin film PT1000 resistance element as a sensor and can be supplied in both rigid stem and remote reading variants. In common with the DT1 series the DT2 can be supplied with 4/20mA signal re-transmission and MAX / MIN temperature logging.

The DT2 -1 is a rigid stem, direct mounted instrument for local indication, stem configurations are common with the DT1-1. A special derivative of this product is the DT2-3, this is fitted with a 12.7mm stem with a reduced tip and a captive 3/4” or 1” BSP hygienic fitting – primary application are Dairy, Brewing and Food Industries.

The DT2-2 enables the measuring instrument to be mounted remotely from the sensor and is available in two variants with differing cable protection systems and sensor housings.

The standard instrument has a PTFE protected cable and a 6mm diameter, 50mm long stainless steel sensor housing. A cable gland can be supplied loose on the cable to enable a sealed connection to be made to tanks, pipes etc. Where cable protection is required 6mm diameter stainless steel armoured cable is available, the stainless steel sensor housing is 12.7mm diameter with a reduced tip, a standard compression fitting can be supplied either loose or captive

on the housing.

ATEX Approved Intrinsically Safe Versions

The addition to the range of an intrinsically safe version allows this product to be standardised in all Pharmaceutical and Petro Chemical industries.

Both Thermocouple (DT1X) and RTD (DT2X) sensor instruments are offered.

ATEX Category

II 1G EEx ia IIC T4 (-20°C < Ta < +60°C)

DigiTemp Tx Transmitter

Any non intrinsically safe DigiTemp variant can be supplied as a two wire 4/20mA indicating temperature transmitter. Operating from a two wire DC power supply, the DigiTemp Tx can be configured during set up to re-transmit a 4/20mA signal across either the full, or part of the instruments measurement range. DigiTemp Tx is supplied with a 2 metre long connecting cable. Retransmission range must be advised at the time of ordering.

DT1 & DT2

DT1 General Purpose Digital Thermometers

The Rototherm DT1 is a micro processor based, battery operated, continuous reading, type K thermocouple input digital thermometer.

Two basic versions are available, both have clear four digit LCD displays with 12.7mm high characters and 1ºC/ºF resolution. 4/20mA signal re-transmission and MAX / MIN temperature logging can also be incorporated.

The DT1-1 is a 316 stainless steel rigid stem temperature indicator. The stem can be either 12.7mm or 6.35mm diameter with a reduced tip for fast response. The stem length and fitting, if required, can be user specified. The DT1-1 can be mounted directly on to a pipe line or vessel where direct, local temperature indication is required.

The DT1-2 is a remote reading instrument, designed for mounting on a panel, either with a three hole front flange or a back flange for surface mounting. The indicator is connected to the sensor by a 3mm diameter stainless steel mineral insulated cable which can be fitted with a compression fitting if required.

DT2 Digital Thermometers

Using common construction to the DT1, the DT2 is a high accuracy, high resolution digital temperature indicator. The DT2 uses a precision three wire thin film PT1000 resistance element as a sensor and can be supplied in both rigid stem and remote reading variants. In common with the DT1 series the DT2 can be supplied with 4/20mA signal re-transmission and MAX / MIN temperature logging.

The DT2 -1 is a rigid stem, direct mounted instrument for local indication, stem configurations are common with the DT1-1. A special derivative of this product is the DT2-3, this is fitted with a 12.7mm stem with a reduced tip and a captive 3/4” or 1” BSP hygienic fitting – primary application are Dairy, Brewing and Food Industries.

The DT2-2 enables the measuring instrument to be mounted remotely from the sensor and is available in two variants with differing cable protection systems and sensor housings.

The standard instrument has a PTFE protected cable and a 6mm diameter, 50mm long stainless steel sensor housing. A cable gland can be supplied loose on the cable to enable a sealed connection to be made to tanks, pipes etc. Where cable protection is required 6mm diameter stainless steel armoured cable is available, the stainless steel sensor housing is 12.7mm diameter with a reduced tip, a standard compression fitting can be supplied either loose or captive

on the housing.

ATEX Approved Intrinsically Safe Versions

The addition to the range of an intrinsically safe version allows this product to be standardised in all Pharmaceutical and Petro Chemical industries.

Both Thermocouple (DT1X) and RTD (DT2X) sensor instruments are offered.

ATEX Category

II 1G EEx ia IIC T4 (-20°C < Ta < +60°C)

DigiTemp Tx Transmitter

Any non intrinsically safe DigiTemp variant can be supplied as a two wire 4/20mA indicating temperature transmitter. Operating from a two wire DC power supply, the DigiTemp Tx can be configured during set up to re-transmit a 4/20mA signal across either the full, or part of the instruments measurement range. DigiTemp Tx is supplied with a 2 metre long connecting cable. Retransmission range must be advised at the time of ordering.

NC3 & NR3

100mm & 160mm dial sizes

• Fitted with unique anti-resonant section to dampen the effects of vibration

• Back or bottom entry versions

The Rototherm range of diesel exhaust thermometers provide an accurate and reliable indication of the exhaust gas temperature of diesel engines and generators.

The stem is fitted with a unique anti-resonant section which dampens out vibration of the instrument head, and eliminates the need for oil filling.

The use of the capillary type enables all the dials to be located on a single panel to provide immediate visual comparison of the performance of each cylinder.

NC3 & NR3

100mm & 160mm dial sizes

• Fitted with unique anti-resonant section to dampen the effects of vibration

• Back or bottom entry versions

The Rototherm range of diesel exhaust thermometers provide an accurate and reliable indication of the exhaust gas temperature of diesel engines and generators.

The stem is fitted with a unique anti-resonant section which dampens out vibration of the instrument head, and eliminates the need for oil filling.

The use of the capillary type enables all the dials to be located on a single panel to provide immediate visual comparison of the performance of each cylinder.

NC1 & NC2

100mm & 160mm dial sizes

• Stainless steel case (316 option)

• All stainless steel construction

• Back or bottom entry versions

• Available with a wide range of thermowells

• Can be fitted with electrical contacts

Where a display is required some distance from the sensing point, for example on an instrument panel, capillary thermometers should be used. The dial can be located up to 30 metres from the sensing point and isolated from dirt and vibration. The sensing bulb is connected by stainless steel microbore capillary, protected by stainless

steel tubing. For severe conditions, flexible armour can extend the entire length of the capillary. Alternative protections can be specified if required.

Models

NC1 General Purpose capillary Thermometers

Tough accurate thermometers housed in a gasket sealed diecast aluminium case with adjustable zero.

NC2 Stainless Steel Cased Thermometers

Reliable, accurate industrial thermometers housed in a stainless steel case with the option of 100mm or 160mm diameter dial.

NC1 & NC2

100mm & 160mm dial sizes

• Stainless steel case (316 option)

• All stainless steel construction

• Back or bottom entry versions

• Available with a wide range of thermowells

• Can be fitted with electrical contacts

Where a display is required some distance from the sensing point, for example on an instrument panel, capillary thermometers should be used. The dial can be located up to 30 metres from the sensing point and isolated from dirt and vibration. The sensing bulb is connected by stainless steel microbore capillary, protected by stainless

steel tubing. For severe conditions, flexible armour can extend the entire length of the capillary. Alternative protections can be specified if required.

Models

NC1 General Purpose capillary Thermometers

Tough accurate thermometers housed in a gasket sealed diecast aluminium case with adjustable zero.

NC2 Stainless Steel Cased Thermometers

Reliable, accurate industrial thermometers housed in a stainless steel case with the option of 100mm or 160mm diameter dial.

Toggle Valves

Working pressure: 200(13.7 [Psing(bar)]

Temperature: -20(-28)~200(93) [^oF(^oC)]
Connection type: V-lok 1/4in,3/8in/2/in.6,8,10mm

Toggle Valves

Working pressure: 200(13.7 [Psing(bar)]

Temperature: -20(-28)~200(93) [^oF(^oC)]
Connection type: V-lok 1/4in,3/8in/2/in.6,8,10mm

Trunnion Ball Valves

Compact, maximun- flow design

Low operating torque

Trunnion Ball Valves

Compact, maximun- flow design

Low operating torque

HIgh pressure test pumps (air driven test pumps)

We have a wide program of air driven test pumps up to 4500 bar fluid pressure. The MADAN test pumps are all made of stainless steel and have a maximum pressure of 2410 bar. The SC test pumps are made of aluminium, bronze or stainless steel with a maximum pressure of 4500 bar. Test pumps are available from stock.

All high pressure test pumps

HIgh pressure test pumps (air driven test pumps)

We have a wide program of air driven test pumps up to 4500 bar fluid pressure. The MADAN test pumps are all made of stainless steel and have a maximum pressure of 2410 bar. The SC test pumps are made of aluminium, bronze or stainless steel with a maximum pressure of 4500 bar. Test pumps are available from stock.

All high pressure test pumps

Air Motor

Description:

We have a wide program with air motors from 0,1 to 23 kW. The air motors can be supplied in combination with a gearbox for higher torques and lower speeds of rotation. Custom build air motors are possible due to an own design and production department.

Scope of use:

Air Motor

Description:

We have a wide program with air motors from 0,1 to 23 kW. The air motors can be supplied in combination with a gearbox for higher torques and lower speeds of rotation. Custom build air motors are possible due to an own design and production department.

Scope of use:

All product