Types Of Pressure Vessels: Thin Walled Pressure Vessel, Thick Walled Pressure Vessel, Vacuum Pressure Vessel Propane bottles and gas cylinders. Strong Tanks Pressure Vessel, Transportable Containers
Applications: Gas Storage Vessels Water Treatment Industries Shipping Industry Refrigeration & Cryogenic
Air Cooled Condenser0 out of 5
The nearly all accepted style of Air Cooled Condenser is the modularized (‘A’ frame structured design), used on industries and power plants of all sizes. Our design teams are updated new technology of the Air Cooled Condenser design for all types of industries. The Air Cooled Condenser design group will discuss about Technical aspects of Air Cooled Condenser for Power Plants and also more industries. The ‘A’ frame structured designs are mostly used in the power plants. Coil Design : Advanced Smart Circuitry Coil Technology Our Air Cooled Condenser Design Process Contains for Thermal Design.
Parts: Expansion bellows Hogger Ejection system Condensate extraction pumps Drain pot Pumps Inter condenser After condenser Condensate storage tank Gland steam condenser Drain Pot
Types: Natural Convection Forced Convection.
Components: Ejectors 3Bellows Instrumentation Pipe Lines Strainers Valves Civil construction Cleaning system Fans ,Motor & Gear box
Applications: All Thermal power plants Gas based Plants Coal based plants Oil Plants Biomass power plants Refrigerant hot gas piping Nuclear power plants
Chiller Air Conditioning0 out of 5
It’s impossible to understand with air conditioner chiller works. The air conditioner’s chiller Components are condenser and evaporator. They are moreover as well-known as the heat exchanger units and also the chilling system is able to integrated with supplementary heating systems such as boilers and solar panels and others.
Applications: Plastic industry, Power Generation Plants Welding Plants Chemical Processing Industries Food Processing Units Ssemiconductors, Cement Industries Power Generation Plants Compressed air and gas cooling.
Double Pipe Heat Exchanger0 out of 5
The heat exchanger is completed of concentric inside also exterior pipe and the Heat exchangers are used to transfer the energy from one substance to another.
Types: Counter flow Parallel Flow Heat Exchanger Multi tube Double pipe exchangers Single tube Double pipe exchangers Countercurrent Double Pipe Heat Exchanger Double Pipe Hairpin Type Typical Double Pipe Heat Exchanger
Thermal Design Calculation: Q = UA ?Tlm After determination of the required heat transfer surface area, Other Mechanical Design are made, With reference to Process applications.
Applications: Tubeside with High pressure Pasteurization Low allowable pressure drop Digester heating Heat recovery High flow rate ratios High terminal temperature differences. Pre-heating Its dependable and once-through Effluent cooling. Especially in cases of process-temperature crosses
Advantages: High Efficiency International high quality Low Maintenance Cost Quick Heat Transfer
Flue Gas Air Preheater0 out of 5
Types: Tubular Type Regenerative Air Preheater Rotating Plate Regenerative Air Preheater Stationary Plate Regenerative Air Preheater
Applications: This type of air preheaters are a bit more straightforward in their design. They frequently seem to be large and boxy, and be able to take up a lot of space when compared with rotary air pre heaters.
Plate Finned Type Heat Exchanger0 out of 5
A Plate finned heat exchanger with 6 fins/cm provides approximately 1,300 m2 of surface per m3 of volume. This heat exchanger would be approximately 10% of the volume of an equivalen shell and tube heat exchanger with 9 mm tubes.
Materials of Construction: Stainless steel casings, Copper Alloy tubes, Aluminum Fins or Foils, Copper Tubes, Carbon steel Casings
Applications: The heat exchangers are developed by vacuum brazing technology and the heat exchangers as single units or as manifolded assemblies, isothermal reactors for chemical Plants and Coil wound heat exchangers and petrochemical industry plants.