Products
Optimized & Industry-ready Solutions
For All Your Complicated Needs
We are able to service membrane and PSA type nitrogen generators. This may include supplying new membrane separators, carbon molecular sieve or engineering services. Oftentimes, simply doing minor repair and process improvements will enhance system performance.
In addition to filling carbon molecular sieve, repairing and putting the PSA systems back in operation, we managed to increase nitrogen production from the membrane systems. The increased nitrogen production resulted in a cost saving since it reduced the pipeline commissioning by several days.
Noxygen Engineering Division
ONSITE GAS GENERATORS
- PSA Nitrogen Gas Plants
- Hydrogen Gas Plants
- Oxygen Gas Plants
- Ammonia Cracking Unit
- Compressed Air System
- Air Dryer System
- Gas Purification Systems
- Ammonia Storage Systems.
SYSTEM INTEGRATOR, PROCESS AUTOMATION
We are system integrator engaged in design, engineering, manufacturing, supply, and commissioning of custom built machine automation and process control systems. We deal in all types of automation PLC & Drives.
MEDICAL OXYGEN GENERATION
Noxygen Engineerings is a world-class leader and pioneer company in the design and manufacture of PSA medical oxygen generators. We are their authorised service provider for them.
PSA Nitrogen Gas Plant
We provide PSA Nitrogen Gas Plant is manufactured by us in India. These Generators are supplied as complete systems, ready for hook up to a compressed air supply, including air filters and controls for automatic operation. Start up is at the flip of a switch and maintenance is limited to changing filters every three to twelve months. Each Nitrogen Generator comes pre-tested and fine tuned to meet the customer specified nitrogen flow rate and purity. Nitrogen is generated from atmospheric air “on-site” by installing a Captive PSA (Pressure Swing Adsorption) generator. Various models suitable for producing commercial grade nitrogen to ultra pure nitrogen are available.
Noxygen Engineer-P MODEL
Noxygen Engineer-D MODEL
Noxygen Engineer-C MODEL
Flow Rate
Gas composition :
Oxygen
Hydrogen
Nitrogen + Others
Dew Point
Pressure
1 – 2000 Nm ³/Hr.
5.0% – 0.01%
NIL
Balance
(-) 40 to (-) 80°C
5 – 25 Barg
1 – 2000 Nm ³/Hr.
1.0 PPM
0.5% or Higher
Balance
(-) 60 to (-) 80°C
5 – 50 Barg
1 – 2000 Nm ³/Hr.
2.0 PPM
0.5% or Higher
Balance
(-) 60 to (-) 80°C
5 – 50 Barg
Heatless Type Air Dryer
The heatless type dryer is designed to take advantage of the natural tendency to desiccant to established equilibrium with their surroundings. This type of dryer is suitable for Dew Point up to (-) 40°C and smaller capacities.
Heated Type Air Dryer
This type of dryer is suitable for Medium to bigger capacities. In this type of dryer regeneration is accomplished with small portion of dry air. This type of dryer are suitable for Dew Point up to (-) 80°C .
Refrigerated Type Air Dryer
In this design the compressed air is cooled to 5°C temperature by refrigeration cooling and Moisture is condensed out. Pressure Dew point of this dryer is (+) 3 °C, which is equivalent to (-) 20°C atmospheric dew point
Blower Reactivated Type Air Dryer
In this type of air dryer for regeneration of desiccant, heated atmospheric air is passed through the saturated bed and moisture in vaporized form is vented out. This is No Purge loss type dryer, which can give dew point up to (-) 80°C & preferred for higher flow rates
No Loss split Flow type Air Dryer
In this type of dryer inlet air is divided into 2 streams. Major part of flow is taken directly for dying operation and partial flow is heated by line heater & is used for regeneration . This is no purge loss type dryer & dew point of (-) 70°C can be achieved easily.
Our Innovations
Industry Focused Products!
Roller Chain Drives
Roller chain drives are a type of power transmission system used to transfer rotary motion between two or more shafts. They are commonly used in a wide range of industrial applications, such as in conveyor systems, packaging machinery, and material handling equipment.
Inductive / Capacitive Sensors
Inductive and capacitive sensors are types of sensors used to detect the presence or absence of an object in a wide range of industrial and automation applications.
Inductive sensors work based on the principle of electromagnetic induction. They generate a magnetic field and detect changes in that field caused by the presence of a conductive object within its detection range. When a conductive object enters the sensor’s detection range, it causes a change in the magnetic field, which is detected by the sensor and used to trigger an output signal. Inductive sensors are often used to detect metal objects and can operate in harsh environments with high temperatures, humidity, and vibrations.
Capacitive sensors work based on changes in the capacitance of a capacitor caused by the presence of an object within its detection range. When an object enters the sensor’s detection range, it changes the capacitance of the capacitor, which is detected by the sensor and used to trigger an output signal. Capacitive sensors are often used to detect non-metallic objects and can operate in harsh environments with high temperatures, humidity, and dust.
Motors & Gear Motors
Motors and gear motors are electro-mechanical devices that convert electrical energy into mechanical energy to power a wide range of machines and equipment.
Gear motors are motors that are combined with a gearbox or gear reducer to increase torque and reduce the speed of the output shaft. The gearbox consists of a set of gears that mesh together to transfer power from the motor to the output shaft at a reduced speed and increased torque.
Conveyor Chains
Conveyor chains are used to transfer products or materials from one point to another within a conveyor system. They consist of a series of interconnected links that are designed to support and move items along a conveyor track. Conveyor chains can be made from a variety of materials, including steel, plastic, and stainless steel, and are available in a range of sizes and configurations to suit different conveyor systems and applications.
The links of a conveyor chain typically include pins, bushings, and rollers, which are designed to facilitate smooth movement along the conveyor track. The chain is typically driven by a sprocket or pulley, which is powered by a motor. As the sprocket or pulley rotates, it pulls the chain along the conveyor track, allowing products or materials to be transported.
Conveyor chains can be used in a wide range of industries, including manufacturing, food processing, and logistics. They are often used in conveyor systems that require high-speed operation, heavy-duty transport, or the handling of products with irregular shapes or sizes. Conveyor chains can also be customized to suit specific application requirements by selecting different materials, configurations, and accessories, such as guide rails, wear strips, and attachments.