SEGMENT-Water- Water Plate Heat Exchanger-BIOTECH & PHARMA
Falling Film Evaporators Heat Exchanger Pipe CU-DHP C12000 Finned Tubing Copper 1
SEGMENT- Water-Water Plate Heat Exchanger-BIOTECH & PHARMA
Shell & Tube Heat Exchangers Air Cooled Heat Exchanger Finned Tube Heat Exchangers Plate Heat Exchangers Oil Coolers Tube Bundles Inter Coolers After Coolers Centac Air Cooler Chillers & Condensors Air Receiver & Pressure Vessels Tank & Coils / Sample Coolers U-Tube Heat Exchanger Kettle Type Heat Exchanger Hairpin Heat Exchanger / Double Pipe Heat Exchanger Reactor Vessel Distillation Columns Storage Tank
Fin tube, fin tube heat exchanger, plate heat exchanger.
Finned tubes and heat exchangers.
SEGMENT- Surface cooler
Tube Bundle Heat Exchangers U Tube bundle Heat Exchangers can duplicate any existing bundle to include dimensions, materials and performance. A heat-exchanger system consisting of a bundle of U tubes hairpin tubes surrounded by a shell outer vessel. One fluid flows through the tubes, and the other fluid flows through the shell, around the tubes. One of the most common applications is the cooling of Hydraulic Fluid. And oil in engines, transmissions and hydraulic power packs. With the right choice of materials they can used to cool or heat other mediums. Such swimming pool water or charge air.
We manufacture Shell & Tube type Heat Exchangers in a wide variety of sizes & materials. We have a complete facility to design (Thermal and Mechanical) and manufactures complete range of Shell and Tube Heat Exchangers for cooling, condensing and heating application. A Shell & Tube Heat Exchanger Consists of a Shell with Traditional plain tubes or enhanced surface tubes for high thermal performance.
FITZER offers inhouse designed and manufactured graphite shell and tube heat exchangers. Graphite shell and tube heat exchanger is used to cool down or heat up ultra-corrosive chemicals. We provide wide range of size in graphite shell and tube heat exchangers with our prime focus on performance and reliability. Our extended and highly customizable heat exchangers portfolio enables us to provide particularly adapted solutions. All our graphite shell and tube heat exchangersâ?? designs are totally modular to best fit with individual process specifications. The diameter, number, and length of tubes, the number of passes on tube side, the type, number, and opening of baffles on the shell side can be set to best meet the velocities, pressure drops, and heat transfer requirements. Customer Benefits : Outstanding Corrosion Resistance â?? Our graphite material is high corrosive resistant at high temperature Multipass construction on process side as well as service side. Robustness Shell and Tube Heat Exchanger are robust in design Easy to install High operational safety Reliability High operational performance with no moving part Low Maintenance Cost â?? Fast and reliable services for repair and spare parts. Sturdy, compact, and modular design Long Lifetime Self-protected metal shell, Premium quality graphite, customized design, no moving part. Product Warranty
Fin tube, low fin tube, extruded fin tube, wounded fin tube, welded fin tube, embedded fin tube, heat exchanger.FOB, CIF, CFR
Product Description High Frequency Welded Stainless Steel Spiral Fin Tube Extruded Wound Finned Tube Aluminum/ Copper Fins Finned Tube Aluminum Fins Heat Exchanger Tube Product Description The spiral fin tube economizer is a newly type heat transfer equipment, consisting of spiral fin tubes to overcome the serious abrasion and short service time.Which consisted of series of spiral finned tubes, the headers of inlet and outlet, bend, frame and other auxiliaries Structure arrangement: in line/staggered arrangement Finned Tube Aluminum Fins Heat Exchanger Tube Features 1. The equipment body can be designed into many modules to ensure the long term and stable running. 2. Compact structure which can enlarge the heat exchanging area in order to add the heat transfer area and less leakage. 3. Improve the heat transfer efficiency. 4. Structure arrangement: In line or staggered arrangement. Finned Tube Aluminum Fins Heat Exchanger Tube Application Aftercoolers, air coolers, air heaters, charge air chillers, condensers, convection heaters, electric heaters, evaporators, fluid coolers, gas coolers, heat pipes, hydrogen coolers, industrial tumble dryers, intercoolers, immersion heaters, oil coolers, radiators, refrigeration, solvent recovery and steam to air heat exchangers. Technical parameters PRODUCT TYPE TUBE MATERIAL FIN MATERIAL TUBE SIZE FIN SIZE Heat Exchanger Finned Tube Extruded Fin Tube All Kind of Material can be applied Aluminum A1100 15.88~50.8 7~11.5FPI Fin Height Max 16mmH L-Foot Fin Tube All Kind of Material can be applied Copper C1100, C1220 12.70~50.8 7~11.5FPI (Wrap On Type) Fin Height Max 16mmH G-Fin Tube (Embedded Type) Aluminum A1100, A1050, A1060 High Frequency Welded Finned Tube A179 Carbon Steel Tube Carbon Steel Tube 12.70~160 1.5~7FPI Stainless Steel Tube Stainless Steel Tube 0.8~3.2mm. Thickness Alloy Steel Material Alloy Steel Material Integral Copper & Copper Alloy High Finned Tube C12200, C11000, C70600 C12200, C11000, C70600 15.88~22.23 5~9FPI Max 12mm. H Oval Finned Tube Carbon Steel Tube Carbon Steel Tube All Size Available 5~15FPI Stainless Steel Tube Stainless Steel Tube Alloy Steel Material Alloy Steel Material Copper & Copper Alloy Tube Copper & Copper Alloy Tube Monometallic Fin Tube Low Fin Tube Carbon Steel, stainless steel, titanium, copper, brass, nickel alloy, etc. -- 9.52~40 12, 16, 19 28 FPI, etc. Turbo-C Tube Turbo-E Tube Corrugated Tube All Kind of Material -- 6.35~40 2~9FPI High Frequency Welded Stainless Steel Spiral Fin Tubes Carbon Steel Spiral Finned Tubes Factory Provided Description of Spiral Finned Tubes: The spiral fin steel pipes currently used are mostly wound, high frequency welded and brazed spiral fin steel pipes. High Frequency Welded Stainless Steel Spiral Fin Tubes Carbon Steel Spiral Finned Tubes Factory Provided
Heat Exchanger Structure Fin Tube, Heat Exchanger Fin Tube.
We supply specialized  manufactured Shell amp Tube Heat Exchangers amp Pressure Vessels Delivering superior quality products in minimum delivery time MOC we can supply in copper brass carbon steels stainless steels like SS304 SS310 SS316L copper alloys such as cupro nickel Admiralty amp Aluminum Brass and many other materials We can supply Heat Exchangers amp Pressure Vessels up to 40 Tons The product range includes the proprietary plate fin tube heat exchanger oil coolers inter coolers after coolers marine heat exchangers oil cooling systems condensers chillers economizers super feed heat exchangers receivers and surge drums This products are extensively used in oil and gas refineries air separation plants chemical steel refineries pharmaceutical industries air conditioning amprefrigeration plants heat treatment shops marine engines amp gear boxes induction furnaces machine tools diesel engine generating sets compressors power plant installations transformers hydraulic power packs food processing vegetable oil refining amp sugar industry etc We are supplying this with certifications such as U R amp NB Stamp from ASME ISO 90012008 quality certificates from LRQA and certifications from DGQA IRS NSIC etc This are all manufactured in Nondestructive testing such as Visual Inspection Liquid penetrant testing Radiographic testing Tube to Tube sheet Weld radiography Ultrasonic testing for raw material and welds Helium leak testing Bubble Leak testing Magnetic particle testing
General information Air to water heat pipe heat exchanger is mainly to heat water using the hot air from heat recovery, it can be used for domestic water, water for boilers or production process. The exchanger is constructed using a partition in the middle to separate the exchanger, both sides are independently sealed. A single heat pipe can be replaced. While working the hot air flows from one side to the other side, the heat pipe absorbs heat. Meanwhile, cold water flows from the reverse side, the heat pipe releases heat, thus heating the cold water from the reverse side. The outlet temperature is not lower than dew temperature. Field of application -feed drying -cereals and oil processing -chemical industry Specification Advantage: -high heat recovery efficiency -seldom temperature difference, fast heat starting, good isothermal -the speciality of the heat pipe results in a high wall temperature, exhaust gas temperature can be reduced without reaching the acid dew point, avoid the corrosion of the equipment.
OEM OD 25.4mm Heat Exchanger Copper Tube CU-DHP C12000 Material 2
Spiral & integral finned tubes heat exchangers & pressure vessels.
Shell and tube heat exchangers consist of a series of tubes. One set of these tubes contains the fluid that must be either heated or cooled. The second fluid runs over the tubes that are being heated or cooled so that it can either provide the heat or absorb the heat required. A set of tubes is called the tube bundle and can be made up of several types of tubes: plain, longitudinally finned, etc. Shell and tube heat exchangers are typically used for high-pressure applications (with pressures greater than 30 bar and temperatures greater than 260°C). This is because the shell and tube heat exchangers are robust due to their shape. Features 1. Tube diameter: Using a small tube diameter makes the heat exchanger both economical and compact. However, it is more likely for the heat exchanger to foul up faster and the small size makes mechanical cleaning of the fouling difficult. 2. Tube thickness: The thickness of the wall of the tubes is usually determined to ensure: a. There is enough room for corrosion b. That flow-induced vibration has resistance c. Axial strength d. Availability of spare parts e. Hoop strength (to withstand internal tube pressure) f. Buckling strength (to withstand overpressure in the shell) 3. Tube length: heat exchangers are usually cheaper when they have a smaller shell diameter and a long tube length. Thus, typically there is an aim to make the heat exchanger as long as physically possible whilst not exceeding production capabilities. 4. Tube pitch: when designing the tubes, it is practical to ensure that the tube pitch (i.e., the centre-centre distance of adjoining tubes) is not less than 1.25 times the tubes' outside diameter. 5. Tube corrugation: this type of tubes, mainly used for the inner tubes, increases the turbulence of the fluids and the effect is very important in the heat transfer giving a better performance .
Flue Gas Heat Recovery Study Every 20C heat recovered from Flue Gases translates to ~1% improvement in Boiler efficiency. For flue gases with SOx and/or sooty, particulate material Conventional heat exchangers suffer from cold spot and SOx condensation corrosion due to cold spots. Also, sooty flue gases offer challenges with respect to cleaning and maintenance in conventional exchangers. HPHE operates at isothermal conditions and hence does not suffer from cold spot formation. Flue gases can be cooled close to the condensation temperature allowing higher heat recovery. Automated or manual in-situ cleaning of HPHE makes it an ideal exchanger for sooty flue gases. This study focuses on a boiler producing 6 t/h saturated steam at 10 bars. Two fuel cases have been considered for this study, Briquettes and Natural Gas. Briquette fired boiler The flue gases will contain a high amount of particulate/soot. The evaporator section of the HPHE for this case has non finned smooth heat pipes and is fitted with an Ultra-Sonic soot blower. The graph on the right shows the Cost Saved per year and HPHE CAPEX for 60, 80, 100, 120 �°C heat recovered from flue gases, assuming the flue gas exits the boiler at 200�°C. Savings is calculated based cost of steam @ Rs 2.3/kg Savings is calculated based cost of steam @ Rs 4.2/kg Natural Gas fired boiler The HPHE for this case will have fins in the evaporator section to improve the overall heat transfer. In case there is SOx in the flue gas, the gases can be cooled to a temperature close to the dew point at the stack exit. The graph on the left shows the Cost Saved per year and HPHE CAPEX for 60, 80, 100, 120 �°C heat recovered from flue gases, assuming the flue gas exits the boiler at 200�°C. The shown Savings and CAPEX figures are estimated values. Connect with us to find our the exact cost savings and HPHE CAPEX for your project.
Heat exchanger finned tube.
