1. Gasketed plate heat exchangers benefits Precision heat transfer - closer approach temperature, true counter current flow, 80-90% less hold-up volume Low overall cost - low capital investment, reduced installation costs, limited maintenance and operating costs Maximum reliability - less fouling, stress, wear and corrosion Environmentally responsible - minimum energy consumption for maximum process effect, reduced cleaning Easy to expand capacity - simply add or remove plates on the existing frame 2. Types of gasketed plate heat exchangers Industrial -extremely versatile range of heat exchangers for use in all types of industries Industrial semi-welded -used in refrigeration when gaskets are not suitable for one of the media and when higher design pressures are needed WideGap -used for applications involving fibrous liquids, highly viscous fluids, and fluids containing coarse particles evaporators-tailor-made, rising film plate surface evaporator condensers -a compact, plate surface vacuum condenser Material available for 0.5 & 0.6mm 304SS, 316SS, Titanium, ASMO254, Hastelloy C-276, Nickel Ni201, 904L More details please contact us directly . 3. Packing&Delivery Package details: standard export plywood case & carton & customizing according to your requirements. Delivery time: within 10 working days after received the deposit and confirmed all details.
Product Model APV model T4 Q055E M107 R5 TR9GN B205 H12 Q055D M092 R8 TR9GL B158 H17 Q080E M060 R8GI SR6GL B134 N35 Q080D J060 R10 SR6AG B110 N25 A055 J092 R14 SR2(R2) B063 N50 A085 J107 TR9AL SR3 P190 Q030E A145 J185 TR9AV SR9 P105 Q030D K71 K55 K34
We are a China based plate heat exchanger manufacturer, and we specialize in plate type heat exchanger, all kinds of plates and gaskets producing. 500+ moulds are with us, and we can replace the most applied plates and gaskets for Alfa Laval Gea, APV, Tranter, Sondex, Funke, Thermowave etc. Thereâ??s no difference when comparing our products with genuine ones. And through the past 13 years, we have been selling them to all over the world, especially in European and American markets. The GEA brand, plates and gaskets we can produce and replace is: NT50T NT50M NT50X NT100TNT100M NT100X NT150L NT150S NT250S NT250M NT250L NT350S NT350M Our plate material 304, 316L, Titanium, Hastelloy C-276 254SMO 904L; Our gasket and ring gasket material NBR, EPDM, VITON, HNBR, CR;
Weâ??re a China based plate heat exchanger manufacturer, and we specialize in plate type heat exchanger, all kinds of plates and gaskets producing. 500+ moulds are with us, and we can replace the most applied plates and gaskets for Alfa Laval Gea, APV, Tranter, Sondex, Funke, Thermowave etc. Thereâ??s no difference when comparing our products with genuine ones. And through the past 13 years, we have been selling them to all over the world, especially in European and American markets. The GEA brand, plates and gaskets we can produce and replace is: VT04 VT10 VT20 VT205 VT20P VT40 VT40(M) VT405P VT405 VT80 VT80(M) VT805 VT2508 Our plate material 304, 316L, Titanium, Hastelloy C-276 254SMO 904L; Our gasket and ring gasket material NBR, EPDM, VITON, HNBR, CR;
Product introduction The plate condenser consists of plates that are welded together in pairs to form a so-called plate set. The concept of a plate set leads to two different types of channels: a weld channel for condensing steam and a gasket seal channel for cooling water. This type of plate is specially designed for optimum condensation. It has an asymmetrical arrangement with a large gap on the steam side and a small gap on the cooling water side. This makes it possible to maintain a very low pressure drop at the steam end while maintaining a certain speed and turbulence on the cooling water side. This maximizes heat transfer efficiency and minimizes fouling. Plate condensers are specially developed for condensing steam under low pressure or vacuum conditions in evaporation and distillation systems. It can meet a variety of specific applications and capabilities requirements. The steam inlet fitting is large and the two condensate outlets are small. The cooling water fitting is a medium size and is located in the center of the plate. Maximum heat transfer area: 500m2/set; Maximum design pressure:16bar Maximum temperature:200 celsius degree; Nozzle diameter:DN50~DN700 Plate thickness:0.5mm-1.2mm; Gasket material:NBR, EPDM, HNBR, HT-NBR, HEPDM, CR, VITON/FKM Fixed and movable plate material: Carbon Steel, Stainless Steel, and others on request. Plate material:AISI304, AISI316, AISI316L, Titanium, Ti-Pa,Hastelloy C276,254SMO,Nickel, AISI904L. Features Plate condenser Lower cost Due to the high heat transfer efficiency, this means less heat exchange area and higher cost efficiency than conventional shell and tube type, especially when stainless steel or titanium is required. The compact design also saves space, thus reducing transportation and installation costs. Plate condenser Less fouling Due to the high strength turbulence created by the specially designed corrugated sheets, there is less fouling on the cooling water side than the shell and tube condenser. Plate condenser Easy to clean The cooling water side is easy to clean, whether in the way of mechanical or chemical. Plate condenser Easy to expand Just add an extra "plate group" in the existing frame. Plate condenser Complete counterflow A greater degree of subcooling of non-condensable gases can be achieved compared to shell and tube equipment. Therefore, the load of the vacuum pump will be reduced. Range of application Alumina, food industry, sugar industry, beverage industry, industrial wastewater, etc.
Product principle The working principle of the plate evaporator is to compress the secondary steam generated by the equipment through the configured compressor, then raise the pressure and temperature to a certain range, and finally transfer it to the relevant heating chamber of evaporator as heating steam. Finally, to perform the condensation heat release program, so that it can help the latent heat of the steam and the recycling can be effectively obtained. Maximum heat transfer area: 500m2/set; Maximum design pressure:16bar Maximum temperature:200 celsius degree; Nozzle diameter:DN50~DN500 Plate thickness:0.4mm;Gasket material:NBR, EPDM, HNBR, HT-NBR, HEPDM, CR, VITON/FKM Fixed and movable plate material: Carbon Steel, Stainless Steel, and others on request. Plate material:AISI304, AISI316, AISI316L, Titanium, Ti-Pa,Hastelloy C276,254SMO,Nickel, AISI904L. Advantages Plate evaporator High heat transfer efficiency The plate evaporator is ingenious in design, so the heat transfer efficiency is higher than that of the general evaporator. Generally, the plate evaporator area only needs about one-half of the tube evaporator then can achieve the same evaporation effect. Plate evaporator Compact overall structure The whole structure is compact, floor space is small, and there is no need to invest too much manpower and material resources in the later use process. For some maintenance work, it only needs to be carried out in the original space range, and it's very simple whether it is disassembled or installed . Plate evaporator Diversification of components The heat exchange area can be effectively adjusted according to the customer's needs: now the heat exchange area of different evaporators has different ranges, since the heat exchanger plates can be disassembled, so multiple components with multiple skills and more new functions can be provided through adjusting number of plates and changing relative flow path. Plate evaporator Small heat loss Because this type of equipment is compact in structure and relatively light in weight, compared with tubular evaporators, it also reduces heat loss, and such equipment usually does not need to be insulated. Plate evaporator Less pressure loss Under the same heat transfer coefficient condition, such evaporator equipment can control the pressure loss within a certain range by rotating a reasonable flow rate.Compared with tubular evaporator,it can reduce 2/3 pressure loss. Plate evaporator Stable and safe operation Different sealing procedures are designed on the sealing device between the plates, and Range of application Metallurgy, food industry, paper industry, air conditioning, chemical and desalination industries
Product Introduction titanium plates are widely used in heat exchangers due to their excellent thermal conductivity, corrosion resistance, and high-temperature stability. A heat exchanger is a device that transfers heat between two fluids or materials, typically one fluid is heated while the other is cooled. titanium plates can be used as the heat transfer medium in a heat exchanger, where they efficiently transfer heat while resisting corrosion and maintaining their structural integrity. Product parameters Material: Gr1 Applicable temperature: 300 Use environment: strong acid and alkali seawater regia, etc. Features 1. Excellent corrosion resistance. Due to the extremely strong corrosion resistance of titanium, titanium plates have excellent corrosion resistance under high temperature, high pressure and strong corrosive media, which can effectively protect equipment from media erosion. 2. Good physical properties. titanium plate has high strength and hardness, and has certain toughness and wear resistance, which can well withstand the working conditions of high temperature, high pressure and strong corrosion environment. 3. Excellent processing performance. Because sinteed titanium plate has good toughness and forgeability, it is easy to form and process, and can be specially processed according to specific needs. 4. Excellent thermal conductivity. Due to the high thermal conductivity of the titanium plate, heat can be quickly transferred out in a high temperature environment, thereby ensuring the efficient operation of the equipment.
Sintered titanium plates are widely used in heat exchangers due to their excellent thermal conductivity, corrosion resistance, and high-temperature stability. A heat exchanger is a device that transfers heat between two fluids or materials, typically one fluid is heated while the other is cooled. Sintered titanium plates can be used as the heat transfer medium in a heat exchanger, where they efficiently transfer heat while resisting corrosion and maintaining their structural integrity. Product parameters Material: Gr1 Applicable temperature: 300 Use environment: strong acid and alkali seawater regia, etc. Features 1. Excellent corrosion resistance. Due to the extremely strong corrosion resistance of titanium, sintered titanium plates have excellent corrosion resistance under high temperature, high pressure and strong corrosive media, which can effectively protect equipment from media erosion. 2. Good physical properties. Sintered titanium plate has high strength and hardness, and has certain toughness and wear resistance, which can well withstand the working conditions of high temperature, high pressure and strong corrosion environment. 3. Excellent processing performance. Because sintered titanium plate has good toughness and forgeability, it is easy to form and process, and can be specially processed according to specific needs. 4. Excellent thermal conductivity. Due to the high thermal conductivity of the sintered titanium plate, heat can be quickly transferred out in a high temperature environment, thereby ensuring the efficient operation of the equipment. Application of Sintered Titanium Plate in Heat Exchanger Chemical processing: Sintered titanium plates are commonly used in heat exchangers for chemical processing applications, such as in the production of acids, bases, and salts. Power generation: Sintered titanium plates are used in heat exchangers for power generation applications, such as in , where they transfer heat from the reactor core to the secondary coolant. Food processing: Sintered titanium plates are used in heat exchangers for food processing applications, such as in the pasteurization of milk and other dairy products. Industrial processes: Sintered titanium plates are used in heat exchangers for various industrial processes, such as in the cooling of gases and liquids in petrochemical plants, oil refineries, and other manufacturing facilities.
Tubular exchanger is the most widely used heat exchanger on chemical and alcohol production. It is mainly composed of shell, tube plate, heat exchange tube, head, baffle and so on. Required material, can be made of ordinary carbon steel, copper, or stainless steel. During heat exchange, a fluid enters through the connecting pipe of the head, flows in the pipe, and flows out through the outlet pipe at the other end of the head. Another fluid enters by the nozzle of the shell and flows out from another nozzle on the shell. This is called the shell process. The structure of the tube heat exchanger is simple, compact and cheap, but the outside of the tube can not be cleaned mechanically. The heat exchanger tube bundle is connected to the tube plate, which is welded to both ends of the shell respectively, and is connected to the top cover. The top cover and the shell are provided with a fluid inlet and outlet pipe. A series of baffles perpendicular to the tube bundle are usually arranged outside the tube. At the same time, the connection between tube and tubesheet and shell is rigid, while outside the tube are two kinds of fluid with different temperature. Therefore, when the temperature difference between the tube wall and the shell wall is large, due to the thermal expansion of the two are different, a large thermal stress is generated, so that the tube twists or loosens the tube from the tube plate, or even destroys the heat exchanger.
Specifications Type : Automatic Material : Gun Metal, Mild Steel Certification : CE Certified Weight : 100-1000kg Voltage : 380V Power : 6-9kw Warranty : 1 Year Driven : Electric
Gireesh shell and tube heat exchanger is the most common type of heat exchanger designs. As its name implies, this type of heat exchanger consists of a shell with a bundle of tubes inside it. One fluid runs through the tubes, and another fluid flows over the tubes (through the shell) to transfer heat between the two fluids. The set of tubes is called a tube bundle, and may be composed by several types of tubes: plain, longitudinally finned, etc.
the cooling tube is made of cooper to roll fin outside individual box
We produce shell and tube heat exchangers from carbon or stainless steel. Heat exchangers are thermal machines where the heat from one media is transferred to another. In practice, they are used for cooling oil, for steam condensation in central heating systems and as boilers for hot tap water. The heat exchangers can be made from steel or stainless steel. The pipes inside the heat exchanger are according to the TIG welding procedure welded to the flange of the heat exchanger. The heat exchangers are produced in various types: U-shaped, helical, with even pipes, conducting several parallel currents through the heat exchanger.
We at JC Equipments in coimbatore offer world class heat exchanger particularly shell type. We offer all types of shell and tube heat exchanger for all industrial applications. where ever the pressure and temperature is available its required our heat exchanger. In heat exchanger industry the most important type of usage in oil industries and chemical process. This shell and tube heat exchanger having two parts. One is Shell side and another one is Tube side. JC Equipments Offer the below types of shell and tube heat exchangers: JC Fixed Tube Sheet Heat Exchanger JC Removable Tube Bundle Heat Exchanger JC Vertical Shell and Tube Heat Exchanger JC Stainless Steel Shell and Tube Heat Exchanger JC U Tube Bundle Type Heat Exchanger
Shell and tube heat exchanger is made to transfer energy from high fluid heat transfer to the lower temperature fluid, the fluid temperature can reach the indexes of the flow rules, so as to meet the needs of process conditions, as well as one of the main equipment of improving energy efficiency. The heat exchanger industry deals with nearly 30 kinds of industries, such as HVAC, pressure vessel, and medium water treatment equipment, which form the industrial chain. The Shell and tube heat exchanger industry in china has achieved remarkable results in energy saving and efficiency, increasing heat transfer efficiency, reducing heat transfer area, lowering pressure drop, and improving thermal strength of a plant. Based on petroleum, chemical, electric power, metallurgy, shipbuilding, machinery, food, pharmaceutical, and other industries to stable demand growth of the heat exchanger.
Shell and tube heat exchanger is a device that transfers part of the heat of hot fluid to cold fluid, also known as heat exchanger. Shell and tube heat exchangers are general-purpose equipment in chemical, petroleum, power, food and many other industrial sectors, and play an important role in production. There are many types of heat exchangers, but according to the principle and method of heat exchange between cold and hot fluids, they can be basically divided into three categories: partition type, hybrid type and regenerative type. Among the three types of heat exchangers, the partition wall heat exchanger is the most widely used. According to the different heat exchange tube bundles, the partition heat exchanger is divided into: FPR floating coil heat exchanger, LWR threaded tube heat exchanger, and WMH eddy current heat film heat exchanger. Advantages of shell and tube heat exchangers: 1. High heat transfer coefficient: threaded pipe is a high-efficiency heat transfer element combining internal and external threads made of red copper or stainless steel with high thermal conductivity. The threaded pipe heat exchanger made of it has little fluid resistance. , then a strong turbulent flow is formed, which greatly improves the heat release coefficient inside and outside the tube. After testing, the total heat transfer coefficient of steam-water heat exchange is 3000~6000W/m2, and the total heat transfer coefficient of water-water heat exchange is 2500~5500W/m2. 2. Compact structure: This product has a large heat transfer area per unit volume. The total heat transfer coefficient is high, so the floor space is greatly reduced, saving materials and space. 3. Not easy to scale: Due to the special concave-convex structure of the threaded pipe, multi-flow layers and rotary scouring are generated inside and outside the pipe. In addition to the thermal expansion and contraction of the pipe, impurities will not remain inside and outside the pipe wall, so it is not easy to scale. , the long-term operation effect is good. 4. Not easy to leak: The sealing circumference of this product is short, the thick thread of the threaded pipe is similar to an expansion joint, and it has its own compensation ability. The thermal stress of the heat exchanger is small, and it is not easy to leak. 5. Easy installation: This series of heat exchangers has two types: horizontal and vertical, which are easy to install in different positions. 6. Compulsory supervisory inspection, reliable quality: manufactured, inspected and accepted in strict accordance with GB150-1998 "Steel Pressure Vessel", GB151-1999 "Shell and Tube Heat Exchanger" and related standards, and accepted "Pressure Vessel Safety Technology Supervision Regulations" supervision.
Precision Equipments is the leading Shell and Tube heat exchanger manufacturer. A shell and tube exchanger consists of a number of tubes inter-connected inside in a cylindrical shell. This shell and tube exchanger heat through the tubes. there are two fluids cab exchange heat from one place to another. One tubes flows over the outside and other one flows through the tubes. Whether it is a liquid or gas can transfer easily. These tubes are aligned in parallel or cross arrangement. we are using Standard Quality raw material to manufacture of our products.
Plate heat exchanger
Working Temperature - +200'C ~ - 200'C Max Pressure - up to 45 Bar Thickness - 0.3 mm SS316L, Cu - 99%; SS304 - optional
Brief introduction: Plate heat exchanger is a new type of high efficiency heat exchanger which is made of a series of corrugated metal sheets. A thin rectangular channel is formed between the plates, through which the heat exchange between liquid, liquid and vapor can be achieved. Advantages of plate heat exchangers compared with tube heat exchangers: 1. Efficient and energy-saving: its heat transfer coefficient is 3000-4500kcal/m2* h, which is 3-5 times higher than that of shell-and-tube heat exchangers. 2. Compact structure: plate heat exchanger with the same area and heat exchange is only 1/5 of shell and tube heat exchanger. 3. Easy to clean, easy to assemble and disassemble. 4. Long service life: Plate heat exchanger is pressed by stainless steel or titanium alloy plates, which can resist various corrosion media, and the rubber pad can be replaced at will. 5. Strong adaptability: Plate heat exchanger plate is an independent component, can be added or subtracted according to the requirements, can be applied to a variety of different, process requirements. 6. No liquid crossing: The sealing groove of the plate heat exchanger is equipped with a discharge channel, and all kinds of medium will not be in collusion.
