Exhaust Temperature Gas Turbines

Description: on all heavy duty gas turbines and are of the latest configuration for easy replacement. Just connect Conax’s thermocouple to the flexible, stainless steel braided cable for quick installation and longer life. All specification qualified exhaust gas and blade path

• Sensor Type: Temperature Probe
• Thermocouple Type: K (-270°C - 1372°C)

Description: -load operation Reduced complexity as an air-cooled engine and parts leading to lower maintenance and operating costs Advanced materials to increase firing and exhaust gas temperatures Advanced sealing system for low leakage cooling air

Description: , this edition includes significant changes from previous to incorporate methodology for determination of gas turbine exhaust energy, flow, and temperature. PTC 22 establishes directions and rules for conduct and results reporting of thermal performance tests for open

Description: , this edition includes significant changes from previous to incorporate methodology for determination of gas turbine exhaust energy, flow, and temperature. PTC 22 establishes directions and rules for conduct and results reporting of thermal performance tests for open

Description: AMETEK Exhaust Gas (EGT) and Wheel Space Frame Turbine Thermocouples meet the specific operational and performance requirements for REPLACEMENT and RETROFIT Frame gas turbine applications. AMETEK's expertise in solving creep, stress, rupture, corrosion, EMF drift,

• Measurement/Display Range (°F): -70 to 400 F
• Measurement/Display Range (°C): -56.67 to 204 C
• Sensor Type: Temperature Probe
• Thermocouple Type: K (-270°C - 1372°C)

Description: Temperature up to 400 °C / 750 °F Exhaust Pressure Back pressure up to 16 bar / 230 psi Condensing up to 0.3 bar / 4.4 psi Exhaust area 0.28 - 1.6 m² / 3.0 – 17.2 sq. ft.

Description: The latest and most capable LM6000 gas turbine exhaust gas temperature (EGT) probe from AMETEK offers the longest possible life. AMETEK is the original EGT probe supplier for CF6 aircraft engines. LM2500, LM5000, and LM6000 industrial gas turbines and

• Measurement/Display Range (°F): -65 to 2050 F
• Measurement/Display Range (°C): -53.89 to 1121 C
• Sensor Type: Temperature Probe
• Thermocouple Type: K (-270°C - 1372°C)

Description: AMETEK Hermetic Exhaust Gas (EGT) and Wheel Space Frame Turbine Thermocouples are the latest OEM production qualified design and incorporate many improvements over previous thermocouple offerings. AMETEK's new thermocouple is 100% hermetic which ensures longer product life,

• Measurement/Display Range (°F): -20 to 700 F
• Measurement/Display Range (°C): -28.89 to 371 C
• Sensor Type: Temperature Probe
• Thermocouple Type: K (-270°C - 1372°C)

Description: Conax Technologies has introduced a solution that offers significant cost savings for LM2500 and LM5000 exhaust gas temperature measurement applications. Conax has a proven history of manufacturing reliable temperature sensors for large frame gas turbines

• Measurement/Display Range (°F): -20 to 800 F
• Measurement/Display Range (°C): -28.89 to 427 C
• Sensor Type: Temperature Probe
• Thermocouple Type: K (-270°C - 1372°C)

Description: Conax Technologies has introduced a cost-effective solution for LM6000 exhaust gas temperature measurement applications. Conax has a proven history of manufacturing reliable temperature sensors for large frame gas turbines and aeroderivative engines and now

• Measurement/Display Range (°F): -20 to 800 F
• Measurement/Display Range (°C): -28.89 to 427 C
• Sensor Type: Temperature Probe
• Thermocouple Type: K (-270°C - 1372°C)

Description: DATA SHEET EXHAUST END CONFIGURATIONS 10 MC Applications: Generator Sets Marine Propulsion OEM Engines Gas Turbine Exhaust Power Units Auxilliary System Piping Markets Served: Marine Construction Oil Platform Power

Description: This compact arrangement utilities a two-cylinder design and axial exhaust applicable for combined cycle with the latest gas turbine technology. It features a separate high-pressure (H) cylinder and combined intermediate-pressur e/low-pressure (IL) cylinder with single flow

Description: : one high-pressure turbine (HP) and one low-pressure turbine (LP). Fields of Application Combined cycle plants Waste-to-energy plants Solar powered plants District heating plants Industrial power plants (e.g. in the Oil & Gas industry

Description: furnish complete TG sets and work closely with our clients to meet their job specific needs. Our custom designed turbine generators include a wide range of capabilities and configurations. Capabilities Up to 100 MW Inlet temperatures to 1,050°F (566°C) Inlet pressures to 2,000 psig

Description: thermocouple manufactured. Applications: • Plastic injection molding machinery • Food processing equipment • Engine and turbine exhaust gas • Semiconductor processing • Heat treating and metals processing • Medical equipment • Aerospace

• Sensor Type: Temperature Probe

Description: · Thermocouple Probes · RTD Probes Our experience ranges from high-reliability turbine exhaust gas temperature probes to sensors that protect instruments and equipment from sub-freezing temperatures.

• Sensor Type: Temperature Probe

Description: The Vulcan Electric PowerGen line of temperature sensors meet the specific operational and performance requirements for the replacement and retrofit products within a wide range of Gas Turbine, Steam Turbines, HRSGs, & Hydro Turbines. Typical applications include

• Sensor Type: Temperature Probe
• Thermocouple Type: E (-270°C - 1000°C), J (-210°C - 1200°C), K (-270°C - 1372°C), N (-270°C - 1300°C), T (-270°C - 400°C)

Description: 1.1 This guide is intended to provide a simple and consistent procedure for the in-situ field measurement of in-duct sound pressure levels in large low pressure industrial air ducts, such as for gas turbines or fans, where considerations such as flow velocity, turbulence or

Description: 1.1 This guide is intended to provide a simple and consistent procedure for the in-situ field measurement of in-duct sound pressure levels in large low pressure industrial air ducts, such as for gas turbines or fans, where considerations such as flow velocity, turbulence or

Description: 1.1 This guide is intended to provide a simple and consistent procedure for the in-situ field measurement of in-duct sound pressure levels in large low pressure industrial air ducts, such as for gas turbines or fans, where considerations such as flow velocity, turbulence or

Description: ) GERP is a PC-based program designed to provide site performance capabilities for Cat® natural gas engines for the gas compression industry. GERP provides engine data for your site’s altitude, ambient temperature, fuel, engine coolant heat rejection, performance data,

• Application: Industrial
• Displacement: 10.45 liters
• Engine Type: Internal Combustion
• Fuel Type: CNG

Description: engines for the gas compression industry. GERP provides engine data for your site’s altitude, ambient temperature, fuel, engine coolant heat rejection, performance data, installation drawings, spec sheets, and pump curves. Product Support Offered Through Global Cat Dealer

• Application: Industrial
• Displacement: 18.01 liters
• Engine Type: Internal Combustion
• Fuel Type: CNG

Description: -based program designed to provide site performance capabilities for Cat® natural gas engines for the gas compression industry. GERP provides engine data for your site’s altitude, ambient temperature, fuel, engine coolant heat rejection, performance data, installation drawings,

• Application: Industrial
• Displacement: 7 liters
• Engine Type: Internal Combustion
• Fuel Type: CNG

Description: ) GERP is a PC-based program designed to provide site performance capabilities for Cat® natural gas engines for the gas compression industry. GERP provides engine data for your site’s altitude, ambient temperature, fuel, engine coolant heat rejection, performance data,

• Application: Industrial
• Displacement: 27.01 liters
• Engine Type: Internal Combustion
• Fuel Type: CNG

Description: . The 3335C is case ground isolated and hermetically sealed. The 3335C's main applications are: testing gas and steam turbines for power generation in aircraft; nuclear power plant testing; exhaust and catalytic converter studies; rocket engine testing; automotive engine

• Device Type: Sensor / Transducer
• Features: Sealed
• Frequency Range: 4 to 2500 Hz
• Number of Axes: Single Axis

Description: on all heavy duty gas turbines and are of the latest configuration for easy replacement. Just connect Conax’s thermocouple to the flexible, stainless steel braided cable for quick installation and longer life. All specification qualified exhaust gas and blade path

• Sensor Type: Temperature Probe
• Thermocouple Type: K (-270°C - 1372°C)

Description: FIT-IT & FORGET-IT Eliminate Exhaust Gas Temperature (EGT) thermocouple concerns with AMETEK's new EGT thermocouple product offering for Frame turbine applications. AMETEK has worked closely with the turbine OEM to design and engine test this thermocouple as a

• Measurement/Display Range (°F): -20 to 700 F
• Measurement/Display Range (°C): -28.89 to 371 C
• Sensor Type: Temperature Probe
• Thermocouple Type: K (-270°C - 1372°C)

Description: isolated and hermetically sealed. Its robust design and unique center through hole mount allow for 360° orientation The 3683C's main applications are: testing gas and steam turbines for power generation in aircraft; nuclear power plant testing; exhaust and catalytic converter

• Device Type: Sensor / Transducer
• Number of Axes: Triaxial
• Operating Temperature: Up to 1000 F
• Sensor Mounting: Stud or Bolt-on

Description: process vents, and steam ejectors. Our gas turbine silencers are engineered for the unique qualities of a gas turbine exhaust. Years of experience have provided us the expertise required to handle the high temperature and low pressure drop requirements of

• Silencer / Muffler Design: Other
• Special Features: Other / Specialized
• Type / Application: Vent / Blowdown Silencer, Engine Silencer, Blower / Fan Silencer, Compressor Silencer, Turbine Silencer

Description: Large increases in turbine back pressure are easily observed and corrective actions are taken promptly, but small amounts of excess back pressure often go unnoticed and can cost millions of dollars over the long haul. RheoVac instruments continuously monitor air in-leakage, exhauster

• Gas Volumetric Flow Rate: 0.0 to 100 SCFM
• Electrical Output: Analog Current
• End Fittings: Flanged
• Features: Measures Temperature, Recorder / Totalizer Functions

Description: Automotive - EGR valves, exhaust heat recovery systems (EHRS), exhaust throttle valves, exhaust brakes, turbocharger wastegate valves Industrial - Industrial & domestic ovens and furnaces, natural gas/petrochemical valves, exhaust or smoke flaps, high

• Bearing Surface Material: Other
• Bushing Type: Sleeve, Flanged
• Design Units: Metric
• Extreme Environment: Yes

Description: turbine exhaust gas (TEG) and fuel mixing for optimal flame control Flame stabilizing system (with TEG staged cooling zones) assures reliable, low-emissions performance and extended burner life Complete CFD analysis, design, and fabrication of TEG flow correction devices,

• Burner Type: Other
• Combustion Fuel: Natural Gas, Propane
• Firing: Direct
• Low NOx: Yes

Description: often used as an embedded sensor in construction, paper electronic and packaging industries. K Type thermocouples are ideal to use in most general applications due to their ability to work in wide temperature ranges. They can be used in kilns, gas turbine exhausts, diesel

• Sensor Type: Thermocouple Element
• Thermocouple Type: K (-270°C - 1372°C)

Description: often used as an embedded sensor in construction, paper electronic and packaging industries. K Type thermocouples are ideal to use in most general applications due to their ability to work in wide temperature ranges. They can be used in kilns, gas turbine exhausts, diesel

• Sensor Type: Thermocouple Element
• Thermocouple Type: K (-270°C - 1372°C)

Description: often used as an embedded sensor in construction, paper electronic and packaging industries. K Type thermocouples are ideal to use in most general applications due to their ability to work in wide temperature ranges. They can be used in kilns, gas turbine exhausts, diesel

• Sensor Type: Thermocouple Element
• Thermocouple Type: K (-270°C - 1372°C)

Description: often used as an embedded sensor in construction, paper electronic and packaging industries. K Type thermocouples are ideal to use in most general applications due to their ability to work in wide temperature ranges. They can be used in kilns, gas turbine exhausts, diesel

• Sensor Type: Thermocouple Element
• Thermocouple Type: K (-270°C - 1372°C)

Description: motor and high and low temperature resistant aluminum alloy wing type wind turbines to force vertical air circulation. 4. Chamber door adopts double layer high and low temperature resistant silicone seal ensure the airtight test area. 5. Chamber bottom has high quality universal

• Configuration: Floor Mount
• Features: Programmable
• Temperature Control: Heating
• Test Parameters: Temperature

Description: Leveraging our extensive experience and expertise in heat and mass transfer to supply custom waste heat recovery units for turbine exhaust, process furnaces and other heat sources for water, glycol mixtures and thermal oil fluid heaters. Waste Heat Recovery Units (WHRUs) are available

• Fuel Type / Heat Source: Gas (Natural / Propane), Oil, Waste Heat / Indirect
• Maximum Pressure: 350 psi
• Orientation: Vertical, Horizontal
• Technology: Water Tube

Description: Indeck offers years of experience utilizing waste gases and recovering its energy in the form of steam. Steam generation is an ideal way to recover waste heat energy from these gases in a form most easily utilized. Enormous quantities of heat energy inherent in exhaust

• Application: Industrial
• System Type: Process Gas Recovery, Wastewater Heat Recovery

Description: Leveraging our extensive experience and expertise in heat and mass transfer to supply custom waste heat recovery units for turbine exhaust, process furnaces and other heat sources for water, glycol mixtures and thermal oil fluid heaters. Waste Heat Recovery Units (WHRUs) are available

• Applications: Clean Water Heating, Other

Description: for lower carbon content to minimize carbide precipitation during welding. APPLICATIONS Furnace parts Heat Exchangers Paper Mill Equipment Exhaust Parts in Gas Turbines Jet Engine Parts Oil Refinery Equipment

• Applications: Aerospace / Aircraft (AQ), Oil and Gas, Resistance Alloy / Heating, Other
• Coil Stock: Yes
• Elongation: 40 %
• Performance Features: Corrosion Resistant, Heat Resistant, Cold Work (Die / Mold)

Description: : Tribological wear-resistant coatings available Custom shapes and sizes available PRODUCT APPLICATIONS Oil & gas: downhole drilling/MWD Industrial turbines: fuel systems/nozzles Valves: body/bonnet, back seat sealing Aerospace/space: turbopump, fuel systems, nozzles/injectors,

• Application / Industry: Aerospace, Piping and Valves, Power Generation, Oil & Gas, Specialized
• Cryogenic Application: Yes
• Material: Specialized or Other
• Material Features: Plated / Coated

Description: Nitrogen and water. Several different forms of Ammonia can be used. That is, you can inject a water solution of Ammonia, Ammonia as a dry gas, or Urea. How does SCR work? Catalysts perform by lowering the temperature required to allow a chemical reaction to occur. In this case, a