Chiller Air Conditioning
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.
Air Cooled Heat Exchanger0 out of 5
Nearly all heat exchangers proceed as a heat sink, everywhere they are fast dissipating heat interested in the air that was built up at a new location. Air cooled heat exchangers are used by following reasons : They enlarge plant good organization, they make not necessitate an supplementary water supply .
Types Of Construction: Our Constructions types are Vertical and horizontal type
Types By Design: Forced Draft Air cooled Heat Exchanger Induced Draft Air cooled Heat Exchanger
Types By Flow: Counter-Current Flow Air cooled Heat Exchanger Co-Current Flow Air cooled Heat Exchanger Cross – Current Flow Air cooled Heat Exchanger
Types By Header: Plug header Cover plate header Welded bonnet type header Manifold header Pipe headers
Sources: Motors Drives Fans Structural vibration
Applications: Process Coolers / Condensers Cooling Tower Fans Cooling Water Coolers Air Cooler Fans Air Cooled Heat Exchanger for Oil & Gas Production Gas Coolers Gas Compressor Inter / After Coolers Air Cooler Fans Air Cooled Heat Exchanger for Power generation Cooling Tower Fans Steam Condensers Seal / Lube Oil Cooler Closed-Loop Cooling Water Coolers Geothermal Plant Condensers Air Cooler Fans Turbine lube oil coolers Turbine intercoolers
Fixed Tube Sheet Heat Exchanger0 out of 5
Materials Of Construction: Stainless Steel, Copper Alloys. Other material options as available.
Applications: Higher-pressure and Higher Temperature applications. It is used as a coolant for oil Hydraulic Fluid and oil in engines, Transmissions and hydraulic power packs. For heating or cooling oil, Water and chemical process fluids.
Advantages: Provides multi-tube-pass arrangements, Easy to cleaning and maintenance It has a Less cost than removable bundle heat exchangers, Provides maximum heat transfer surface per given shell and tube size. Ease of single tube replacement Provides multi-tube-pass arrangements.
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.
Brazed Plate Heat Exchanger0 out of 5
Materials Of Construction:Compact BPHE is constructed like a plate package of corrugated channel plates with a filler material between each plate. Our heat exchanger is Cost-effective, healthy solutions to facilitate save space, and energy across a broad range of applications.
Applications: Heat-pump Boilers Evaporators Hydraulic oil cooling District heating Thermal power stations Refrigeration Oil coolers Air conditioning Outdoor wood boilers, stoves, furnaces Domestic water heating Solar energy and chiller applications
Advantages: We provide high quality Compact design Three way design for heat pumps Higher Heat Transfer High corrosion resistance Low investment costs for BPHE Simplify maintenance and repair with BPHE Versions for standard and high pressure operation
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