High flux pipe is specifically designed to enhance heat transfer coefficient. A thin, porous metal layer is bonded metallurgically to the heat transfer surface. This pore make liquid produce a large number of bubbles at low superheat, which enhance heat transfer. At the same time, porous structure formed many boiling centre, the film boiling changes to nucleate boiling. So boiling side heat transfer coefficients of 10-30 times that of bare tubes can be achieved, resulting in an overall heat transfer improvement of 2-4 times that of bare pipes.
The main application:
Overhead cooler
Reboiler of ethylene separation
Ethylene glycol unit evaporation tower
Seawater desalination etc.
Fe3al filter element Product material and specifications 1. This filter element is formed by isostatic pressure and vacuum sinter. In order to get high filtration precision and permeability at the same time, composite structure is designed, one is supporting layer with high intensity, big pore and low resistance drop. The other is membrane layer with small pore and low resistance drop. 2. Two layers are all fe3al, so there is good bond strength after vacuum sinter. 3. Maximum length is 1500mm, a longer one can get with weld. 4. Widely used in coal chemical industry because of its good sulfur corrosion resistance Main performance indicators 1. Filtering accuracy 0.3-3m 2. Heat resistance: it can be used under 700 for long term: 3. Corrosion resistance: the product has excellent high temperature oxidation resistance and resistance to sulfur corrosion. Main products 1) high temperature high pressure fly ash filter system; 2) lock hopper filter; 3) discharge tank filter; 4) high pressure co/nfilter; 5) medium/high pressure nfilter; 6) fly ash discharge tank filter; 7) fly ash gas stripping tank filter; 8) fly ash storage tank filter.
Performance feature: 1. Shape stability self-supporting structural elements suitable for high differential pressures; 2. High heat resistance and thermal stability; 3. Defined permeability and filtration properties; 4. Back-flushing and easy cleaning; Product style: plate, tube, some special structures can be obtained by welding. Materials: stainless steel, monel alloy, inconel alloy, fe3al, tial, nial, ni, ti, cu etc; Typical product: fe3al filter element
Sintered metal mesh filter element Performance featureï 1. High pressure resistance; 2. Corrosion resistance; 3. High-temperature capabilities; 4. Repeatedly cleanable; 5. Consistent and fixed pore size; Product style: plate, tube, some special structures can be obtained by welding. Materials: stainless steel, ni, cu etc. Typical product: fischer-tropsch synthesis reactor filter 1) this reactor filter is used multilayer wire mesh after sintering, reel and welding. 2) have high compressive strength with supporting.
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
Supplier: Filter, filter element, heat exchanger, high flux heat exchanger pipes
Morish India designs and manufactures â??Shell & Tube Heat Exchangersâ?? which are the most widely and commonly used Heat Transfer Equipment in many industries. TYPE-Fixed Tube Sheet, Removable tube Bundle CAPAICITY- As per user requirements SHELL DIA- 4 Inch To 50 Inch SHELL LENGTH- Max 120 Inch TUBES-Plain, Corrugated, Integrally Finned
Shale shaker screen is used in slurry, gas&oil field and for filter as a filter element. there are many kinds of screen, such as derrick, brandt, swaco and so on The mesh count is very important for hte fine mesh screen. Our screen mesh could up to 325 meshes. And we can produce the screens with one or more layers. Type: hook strips flat, frame, soft hook strips, flat screen, pyramid screen and so on.
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.