In Heat exchanger system, the new and latest type of compact and effective model Heat exchanger is plate type heat exchanger. Another type of heat exchanger is the plate heat exchanger. One composed of multiple, thin, slightly-separated plates that have very large surface areas and fluid flow passages for heat transfer. This stacked-plate arrangement can be more effective, in a given space, than the shell and tube heat exchanger.
Advances in gasket and brazing technology have made the plate-type heat exchanger increasingly practical. In HVAC applications, large heat exchangers of this type called plate-and-frame; when used in open loops, these heat exchangers are normally of the gasketed type to allow periodic disassembly, cleaning, and inspection. There are many types of permanently-bonded plate heat exchangers. Such as dip-brazed and vacuum-brazed plate varieties, and they are often specified for closed-loop applications such as refrigeration. Plate heat exchangers also differ in the types of plates that used, and in the configurations of those plates. The closely spaced metal heat transfer plates have troughs or corrugations. Which induce turbulence to the liquids flowing as a thin stream between the plates.
The plates have corner ports. Which in the complete plate pack form a manifold for even fluid distribution to the individual plate passages. As an exclusive feature, parallel flow heat exchanger plates have interlocking gaskets. In which upstanding lugs and scallops are sited intermittently around the outside edges. The seal between the plates is established by a peripheral gasket which also separates the thru port and flow areas with a double barrier. The interspaces vented to atmosphere to prevent cross-contamination in the rare event of leakage. Plate heat exchanger, consists of a stationary head and end support connected by a top carrying bar and bottom guide rail. These form a rigid frame, which supports the plates and moveable follower. The closely spaced metal heat transfer plates have troughs or corrugations. Which induce turbulence to the liquids flowing as a thin stream between the plates.
The plates have corner ports, which in the complete plate pack form a manifold for even fluid distribution to the individual plate passages. For further details for plate heat exchanger, please contact our marketing division.
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
Welcome to A.S Engineers & Fabricators, where innovation meets excellence. We are thrilled to introduce our latest breakthrough: the Heat Exchanger. Engineered with precision and crafted with care, our Heat Exchanger is poised to redefine the standards of heat transfer efficiency in diverse industrial applications. In today's dynamic industrial landscape, optimizing heat transfer is essential for enhancing productivity, reducing energy consumption, and ensuring the reliability of critical processes. With this in mind, our team at A.S Engineers & Fabricators has developed a state-of-the-art Heat Exchanger that promises unmatched performance and reliability. MOC:- SS304,SS316,SS316l,Carbon Steel Strategies by heat Exchanger Fluid Selection: Choose the right fluids based on their thermal conductivity and heat capacity to maximize heat transfer efficiency. Matching the properties of the fluids to the application ensures optimal performance. Flow Control: Implement proper flow control mechanisms to regulate the movement of fluids within the Heat Exchanger. This ensures uniform heat distribution and prevents the formation of hot spots or cold spots, enhancing overall efficiency. Temperature Monitoring: Utilize advanced temperature monitoring systems to continuously monitor the temperature of the fluids entering and exiting the Heat Exchanger. This allows for real-time adjustments to optimize heat transfer performance and maintain desired operating conditions Efficient Heat Transfer Our heat exchanger ensures efficient transfer of heat between two fluids, allowing you to maintain optimal temperatures in your processes Cost-Effective Solution By effectively utilizing heat exchange principles, our product helps you save on energy costs, making it a cost-effective solution for your operations Enhanced Performance With improved heat transfer efficiency, our heat exchanger boosts the performance of your equipment and processes, leading to increased productivity Customizable Designs We offer customizable designs tailored to your specific requirements, ensuring that our heat exchanger seamlessly integrates into your existing systems Durable Construction Built with high-quality materials and precision engineering, our heat exchanger is durable and reliable, providing long-lasting performance in demanding industrial environments Easy Maintenance Designed for easy maintenance and servicing, our heat exchanger minimizes downtime and ensures smooth operation, allowing you to focus on your core business activities
Plate Heat Exchanger uses metal plates to transmit heat between two fluids and is available in different specifications. Also, using this modern solution has more advantages over conventional heat exchangers. At Process Engineers And Associates, you will get the unparalleled quality at industry leading prices. Being one of the industryâ??s leading Plate Heat Exchanger Manufacturers In Delhi/NCR, we offer several specifications to choose from. Major Characteristics Of Plate Heat Exchanger Are: Simple And Compact Design: This Industrial Plate Heat Exchanger has a simple fabrication and comes in small and easy-to-use designs to fit in your industry premises. These thin sheets have corrugations and patterns to increase the surface area as well as the efficiency of the products. Quick To Clean And Maintain: These Heat Exchangers are made of good quality metal, which makes it easier to clean and maintain them after completing the application. Easy To Enhance The Capacity: You can simply expand the size and capacity of the sheet by just adding one along with others. Application Areas: Steel Industry Marine Industry Pharma Industry Dairy Industry Beverage Industry
We are the leading manufacturers of Air heat exchangers in India. Brazed Plate Heat Exchangers represent the most compact, rugged and cost-effective means of transferring heat in many industrial and refrigerant applications. Built from 316 stainless steel with copper brazing materials, they provide exceptional corrosion resistance. The SB-Series features corrugated plates that produce highly turbulent flow in a true counter-current direction. This results in high efficiency and a very compact heat exchanger design. Due to the smaller size and reduced material content, they can be the most economical heat transfer choice.API Heat Transfer Brazed Plate Heat Exchangers are available for process and refrigeration applications. Made from stainless-steel plates and copper or nickel brazing materials, they are suitable for a wide variety of heat exchanger applications. Specifications The brazed plates form two separate channel systems. The two media assume a true countercurrent flow, completely isolated from each other. This channel configuration is designed to produce high turbulence, promoting maximum heat transfer. Applications Hydronic heating Domestic hot water heating Radiant heating Snow & ice melting Chilled water cooling Beer & wort chilling Hydraulic oil cooling Outdoor wood furnaces/stoves/boilers and other water to water and liquid to liquid heat transfer applications. Advantages Flexibility to change plate arrangement and to add or remove plate Optimized heat recovery Easy maintenance and suitable for CIP, plate pack easily accessible No mixing of product High heat transfer coefficients Compact constructions
Kaori was founded in 1970 by a group of metallurgical industry experts. Since Kaori was established, we have pursued the modernization of the heat treating technology as our goal. The JIS (Japan Industry Standard) marking and process certifications from McDonnell Douglas were awarded to Kaori in 1988 and 1994 respectively. Kaori Technology is the no.1 gasket plate heat exchanger in Taiwan, and is already deeply rooted in global. !¡¦ We welcome any agency, organization, corporation or person to import our products to your country. We provide the cheapest price to you and we are the biggest heat exchanger manufacturer in Asia. Nowadays, our products will be more and more competitive with another heat exchanger company. And the whole of processing industry will be complete in Taiwan. !¢X Why use a plate heat exchanger? The advantages of the plate heat exchanger begin with its design. Plate heat exchangers, or PHEs, deliver greater efficiency, lower cost, easier cleaning and maintenance, and closer approach temperatures than any other heat transfer technology. Compared to spiral and shell and tube heat exchangers, PHEs of similar capacity also take up little floor space and are easy to expand. The vertical swing out plates allow one to pack thousands of square feet of heat transfer area into a small space, while still allowing room for future growth. !@ !@ !¢X Flow arrangements While hot and cold fluids flow in opposite directions across a !@ single plate, the flow pattern between plates can be varied. Plate heat exchanger flow patterns can be single or multi pass. !@ A single-pass arranqement means each fluid flows in the !@ same respective direction across all the plates in the unit. !@ A multi - pass arrangement is designed in such a way that fluids can change their respective flow directions. Single-pass units are suitable for most applications, but very low flow rates or extremely close-approach temperatures may call for the multi pass configuration. !¡¦ Our partners include: National Aeronautics and Space Administration (NASA), Taiwan Power Company, HON HAI PRECISION IND.CO.,LTD, TAIWAN SUGAR CORPORATION, Taiwan Tobacco and Liquor Corp., China Steel Corp., China Ship-building Corp., China Petroleum Corp., Chuanen Company, Tamsui Mackay Memorial Hospital, Hsindan Tzu Chi Hospital, Veteran General Hospital and Biological Technology Center, National Taiwan University Hospital, Nankang Station of Three Railways, Changhua Show Chwan Memorial Hospital, Tainan Historical Museum, Social Science Building of Academia Sinica, Formosa Plastics Enterprise, Allied Material Technology Corp., Kinsus Interconnect Technology Corp., Toppan Chinghwa Electronics, UMC, Honhai Enterprise, ASE Chungli Factory, HannStar Yangmei Factory, Pro MOS Technologies at Central Industrial Park, Takahashi Inc. at Central Industrial Park, Mosel Vitelic Ink. At Southern Industrial Park, Chin Poon Industrial, Tien Lai Spring Resort, Taipei Jen-ai Dibao of Hung Sheng Construction, Nation Taiwan University, Industrial Technology Research Institute, Nuclear Energy Research Institute, Chung-shan Institute of Science and Technology etc. depends on what you choose! base on as below 1. how much the temperature you want to down or up? 2. how much your flow? 3. what is your fluid? water and water? water and oil?
Design Features & Benefits The spiral plate heat exchanger is made by rolling two long metal plates around a center core to form two concentric spiral flow passages, one for each fluid. The plate edges are welded shut so that each fluid stays within its own passage and there is no flow bypassing or intermixing. Channel plate width and spacing (gap between plates) are optimized for the specified duty, maximum heat transfer, and ease of access. The plate gap is maintained by welded spacer studs although some designs do not require them. Due to its inherent circular design and large surface area to volume ratio, the spiral heat exchanger offers unique advantages over other types of heat exchangers like the shell and tube. High Thermal Efficiency Single and long curving flow passages with a uniform rectangular cross-section ensure superior flow distribution, intense turbulence, and high heat transfer coefficients (50-100% greater than shell & tubes). Self-Cleaning Passages The spiral's single-flow passages induce high shear rates that scrub away deposits as they form. This self-cleaning effect reduces fouling and makes spiral heat exchangers ideal for handling tough fluids such as process slurries, sludge, and media with suspended solids or fibers. Countercurrent or Co-current Spiral heat exchangers normally operate in true countercurrent flow for close approaches and temperature crosses. Occasionally a co-current flow design has major benefits, especially in cooling or heating fluids prone to gelation, burn-on, freezing or similar skin temperature related fouling. Small Footprint & Easy Access The spiral heat exchanger is compact and requires minimal space for installation and servicing. Removable covers provide easy access to interior heat transfer surfaces for field inspections, routine maintenance, or manual cleaning if required.
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.