Benefits of Gasketed Plate Heat Exchangers in Heating & Cooling Systems | SCES Shrao Engineering

In today's industrial landscape, efficient heating and cooling systems play a pivotal role in maintaining optimal performance. Gasketed Plate Heat Exchangers (PHEs) have emerged as one of the most effective solutions in achieving energy efficiency and operational reliability. Whether you are in manufacturing, HVAC, or power plants, these heat exchangers offer significant advantages over traditional methods. As trusted heat exchanger manufacturers and PHE gasket suppliers in India, SCES Shrao Engineering highlights the key benefits of using gasketed PHEs in your systems.

1. Enhanced Energy Efficiency

Gasketed plate heat exchangers are specifically designed for high thermal efficiency. The unique arrangement of plates creates a large surface area for heat transfer while keeping the unit compact. This design ensures that more heat is transferred between fluids, minimizing energy loss.

By using PHEs, businesses can reduce energy consumption, leading to significant cost savings over time. At SCES Shrao Engineering, we manufacture custom-built heat exchangers that ensure optimal performance tailored to your requirements.

2. Compact and Space-Saving Design

Unlike bulky shell-and-tube heat exchangers, gasketed PHEs are much smaller and easier to integrate into tight spaces. Their modular design allows for seamless installation and scalability, making them a perfect choice for industries where space is a premium.

As a leading heat exchanger supplier in India, SCES Shrao Engineering designs compact units without compromising performance, helping industries streamline their systems effectively.

3. Ease of Maintenance and Cleaning

One of the standout features of gasketed plate heat exchangers is their easy maintenance. Thanks to their modular plate arrangement, the unit can be disassembled for inspection, cleaning, or gasket replacement without specialized tools.

SCES Shrao Engineering, as a trusted PHE gaskets manufacturer, provides high-quality gaskets that ensure a reliable seal and easy maintenance. With a proper maintenance routine, PHEs can deliver consistent performance for years.

4. Customizable and Versatile

Gasketed PHEs offer incredible versatility. They can handle a wide range of temperatures and pressures, making them ideal for various industrial applications, including HVAC systems, chemical processing, and power generation.

SCES Shrao Engineering specializes in manufacturing tailored solutions to meet unique heating and cooling needs. Our expertise as PHE gasket suppliers and heat exchanger manufacturers in India ensures that you get a product that aligns perfectly with your operational goals.

Why Choose SCES for Gasketed Plate Heat Exchangers?

At SCES Shrao Engineering, we combine over 40 years of engineering excellence with innovation to provide high-quality heat exchanger solutions. From PHE gaskets manufacturing to custom-designed heat exchangers, we cater to industries across India with precision-engineered products that improve energy efficiency and operational reliability.

Whether you are looking for PHE gasket suppliers or heat exchanger manufacturers in India, SCES Shrao Engineering delivers the expertise, quality, and service you need to stay ahead.

Ready to Optimize Your Heating and Cooling Systems?

Partner with SCES Shrao Engineering for top-of-the-line gasketed plate heat exchangers and PHE gaskets. Visit our website to learn more about our products and services or contact our team for a customized solution.

Source: https://www.sces.shraoengg.com/top-4-benefits-of-gasketed-plate-heat-exchangers-in-heating-and-cooling-systems/

In today’s industrial world, efficiency and sustainability are key considerations. One technology that stands out for its effectiveness in heat transfer is the Plate Heat Exchanger (PHE). At Adhunik Automation India, we are proud to offer top-quality Plate Heat Exchangers that help businesses optimize their operations. In this blog, we'll delve into what makes PHEs essential, how they work, and why choosing Adhunik is the best decision for your business.

What is a Plate Heat Exchanger?

A Plate Heat Exchanger (PHE) is a type of heat exchanger that uses metal plates to transfer heat between two fluids. Unlike traditional shell-and-tube heat exchangers, PHEs use thin, corrugated plates arranged in a stack. These plates are separated by gaskets or welded joints, forming multiple channels through which the fluids flow. This design maximizes the surface area for heat transfer while maintaining a compact footprint.

How Does a Plate Heat Exchanger Work?

The fundamental principle behind a Plate Heat Exchanger is to transfer heat between two fluids without them mixing. Here’s a simplified breakdown of how it works:

Fluid Flow: The two fluids—often one hot and one cold—flow through alternate channels in the heat exchanger. The arrangement of the plates ensures that the fluids flow in opposite directions, which is known as counterflow. This counterflow arrangement maximizes the temperature gradient between the two fluids, enhancing heat transfer efficiency.

Heat Transfer: As the fluids pass through the plates, heat is transferred from the hotter fluid to the cooler one. The thin, corrugated plates provide a large surface area for heat exchange, allowing for efficient thermal transfer.

Temperature Regulation: The continuous flow of fluids through the plates allows for precise control of the temperature of each fluid, which is critical in many industrial processes.

Benefits of Plate Heat Exchangers

Plate Heat Exchangers offer several advantages over other types of heat exchangers, including:

High Efficiency: The design of PHEs allows for high heat transfer efficiency due to the large surface area provided by the plates and the turbulence created by the corrugated design. This results in better thermal performance and lower energy consumption.

Compact Size: PHEs are much more compact compared to shell-and-tube heat exchangers. This compactness makes them suitable for applications with limited space.

Flexibility: The modular design of plate heat exchangers means they can be easily expanded or reconfigured to meet changing needs. Additional plates can be added to increase capacity, or the unit can be reconfigured for different applications.

Ease of Maintenance: Plate Heat Exchangers are relatively easy to maintain. The plates can be easily removed for cleaning or inspection, which helps to ensure optimal performance and longevity.

Cost-Effective: Due to their high efficiency and compact size, PHEs often result in lower operating costs. Their design also reduces the amount of materials needed for construction, which can translate into cost savings.

Why Choose Adhunik Automation India?

At Adhunik Automation India, we are committed to providing high-quality Plate Heat Exchangers that meet the diverse needs of our clients. Here’s why you should consider choosing us for your PHE needs:

Expertise and Experience: With years of experience in the industry, we have the expertise to design and supply Plate Heat Exchangers that are tailored to your specific requirements.

Quality Assurance: We prioritize quality in every aspect of our products. Our Plate Heat Exchangers are manufactured using high-grade materials and undergo rigorous testing to ensure they meet the highest standards.

Customized Solutions: We understand that each application is unique. Our team works closely with clients to provide customized solutions that address their specific needs and challenges.

Support and Service: Our commitment to customer satisfaction extends beyond the sale. We offer comprehensive support and maintenance services to ensure that your Plate Heat Exchanger operates efficiently throughout its lifespan.

Innovation: At Adhunik Automation India, we are constantly exploring new technologies and innovations to enhance our products. Our Plate Heat Exchangers incorporate the latest advancements to provide superior performance and reliability.

Conclusion

Plate Heat Exchangers are a vital component in modern industrial processes, offering superior efficiency, compact design, and ease of maintenance. At Adhunik Automation India, we are dedicated to delivering high-quality PHEs that help businesses achieve optimal performance and cost savings. Whether you are looking to improve your existing system or invest in a new heat exchanger, our team is here to provide the expertise and support you need. For more information on our Plate Heat Exchangers and how they can benefit your business, feel free to contact us. Let Adhunik Automation India be your trusted partner in optimizing heat transfer and enhancing your industrial operations.

APV Heat Exchanger Gaskets

APV heat exchangers for food, dairy and brewing industries, healthcare, chemical, pharmaceutical and heavy industry. Our comprehensive range of services includes replacement gaskets for APV heat exchangers such as APV SR, R, B series and other non-OEM models.

Features of APV Heat Exchanger Gaskets

Comply with high international standards of cleanliness and hygiene.

Good durability.

Excellent sealing performance.

Made of high-quality materials.

6 Maintenance Tips For Plate Heat Exchanger

Maintenance and inspection schedules for plate heat exchangers depend on a variety of factors, including the environment (time, temperature, and concentrations), frequency of use, and regulatory mandates. Different industries have different maintenance requirements, and different processes will affect your heat exchanger differently. The best way to maximise uptime is to establish a preventative maintenance schedule. 

Online and Offline Cleaning :

Cleaning online prevents fouling and scaling without interrupting operation or shutting down the heat exchanger. Online cleaning can be used as a standalone approach or in conjunction with chemical treatment to prevent any reduction in the heat exchanger performance and to extend the service life of the tube. Online cleaning techniques include the recirculating ball type system and the brush and basket system.

Offline cleaning is another effective cleaning technique for improving heat exchanger efficiency and reducing operating costs. Pigging involves the use of a bullet-like piece of equipment placed inside the tube and pushed down the tube with high air pressure. Other offline cleaning methods include chemical cleaning, hydro-blasting, and hydro-lancing.

As a result of both methods, the heat exchanger is restored to its optimal efficiency before scaling and fouling begin to creep in and negatively impact its efficiency.

Maintaining Heat Exchanger :

Maintaining plate heat exchangers to avoid fouling, blockages, and leaks is the best way to boost efficiency and output. In the absence of periodic maintenance, heat exchanger efficiency is bound to be compromised, resulting in reduced heat transfer, potentially higher energy costs, fluid cross-contamination, and erosion. It can be safely concluded that all heat exchanger performance problems can be avoided by implementing an appropriate maintenance program.

Periodic Cleaning :

It is most effective to flush out all the dirt and debris that degrade heat exchanger efficiency over time with periodic cleaning-in-place. Draining both sides of the PHE and isolating it from the system fluid is required for this technique. The water should be flushed out from both sides until it runs clear. Flushing should be performed in the opposite direction of regular operations. 

As soon as this is done, a cleaning agent is passed using a solution tank and a circular pump, while making sure the agent is compatible with the gaskets and plates of the PHE. Lastly, the system should be flushed with water until the discharge stream is clear.

Cleaning the PHE Manually :

You must follow the manufacturer’s instructions when cleaning manually. Ideally, the plates should be cleaned without being separated from the frame, so when installing a PHE, it is essential that there is enough space for manual cleaning.

In the next step, a cleaning agent is applied to eliminate dirt and debris, followed by a thorough rinsing with a soft bristle and pressurised water. It is not recommended to use metal pads or brushes, as they may irritate or dislodge the plates.

Minimising the Fouling Factor :

Heat exchanger efficiency is highly affected by the velocity of the operating fluid, so it is recommended that the flow rate be increased periodically. Turbulence retards fouling, which otherwise impacts heat exchanger performance and impedes fluid flow. The duration and frequency of preventive maintenance and periodic cleaning will, however, vary depending on the velocity of the fluids being processed and the foundering tendencies of the medium.

Analysing and Addressing Issues in Heat Exchanger Efficiency :

Efficiency issues with heat exchangers may not always appear as leaks, fouling, or blockages. While many problems are minor, if left unchecked, they can cause irreparable damage to expensive equipment, resulting in unplanned downtime and emergency repairs.

The process data documented around maintaining heat exchangers offers valuable insight into various important factors, such as flow rate, pressure, and channel inlet and outlet temperatures. Using this data, we are alerted to impending issues that may become uncontrollable if not addressed on time.

If you are not using energy optimally, you are losing money every minute. Follow these tips to improve heat exchanger efficiency and save fuel in almost any application.

To find out more about this article, please click here; https://sa179tubes.com/6-maintenance-tips-for-plate-heat-exchanger/ 

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Alfa Laval provides complete range of Gasketed plate-and-frame heat exchangers for Dairy, Food, Beverage, and Pharma Industry. Gasketed plate-and-frame heat exchangers provide efficient heat transfer in compact equipment with a small footprint - much smaller and more efficient than shell-and-tube heat exchangers. Learn more about the Alfa Laval ten top tips gasketed plate heat exchangers at : https://www.alfalaval.in/products/heat-transfer/plate-heat-exchangers/gasketed-plate-and-frame-heat-exchangers/

   Our company have two factories, one is mould factory named Tianjin Jinfan Mould Co., ltd, and the other factory named Tianjin Botai Heat-Exchanger Equipment Co., ltd, special do the plate heat exchanger unit, plate for plate heat exchanger, frame for plate heat exchanger and plate mould.

    Tianjin JinFan Mould Co.,Ltd is a professional company devoted to design and manufacture plate type heater-exchanger moulds, owning hundreds of employees and more than forty sets of processing centers.

   NC milling and Gantry milling. We can provide three hundreds of plate type heat-exchanger moulds for our customer, JinFan mould company has nearly 20 years experince on design and manufacture plate type heater-exchanger moulds. We also has a group of engineering technology staffs with nearly 3 decades plate type design. With few decades experince and research on world advanced plate type, we have fromed and unique design idea. Under the concept, we have expoited the bigger 500 holes mould and 400 holes mould respectively in different time. We obtain customers appreciation owing to our resonable price, solid quality and comprehensive services.

   Tianjin Botai Heat-Exchange Equipment Co., Ltd., the wholly-owned subsidiaries of Tianjin Jinfan Mould Co., Ltd., is the professional enterprise to manufacture plate heat exchangers, and plates and rubber gaskets for PHE. The area of the factory is 26,000㎡, and the workshop is 12,000㎡. Our company has 14 sets of press including40,000tons, 15,000 tons, 10,000 tons and 6,000 tons, and we also have over 30 sets of equipment including punch and plate shearing machine.

   We can supply various plate heat exchangers and plates over 400 models and various rubber gaskets more than 400 models. The aperture of plates is from 25 to 500mm, whose materials include SS304, SS316L, Ti, Ni, Hastelloy Alloy, 254SMO and Titanium and Palladium Alloy.

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PHE GASKETS WORLD

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Plate Heat Exchangers: What are their types?

A plate heat exchanger is a type of heat exchanger that uses metal plates to transfer heat between two fluids. It has a major advantage over traditional shell and tube heat exchangers because it is a much more efficient heat transfer. Plate heat exchangers are used in various industries, from food and beverage processing to chemical manufacturing. You might wonder about the available types if you're in the market for a plate heat exchanger (PHE).

This blog post will look at the three main types of PHEs: gasketed, brazed, and welded. Each type has advantages and disadvantages that make it better suited for certain applications. By the end, you should know which type is right for your particular application.

Gasketed plate heat exchangers are the most common type of PHE. They're made up of a series of plates, each with a gasket bolted together. The gaskets prevent the two fluids from coming into direct contact with each other but allow them to flow past each other to transfer heat. The plates are usually made of stainless steel but can also be made of other materials, such as titanium or nickel alloys. Gasketed PHEs can be used with various fluids, including water, steam, oil, and chemicals. Gasketed plate heat exchangers are relatively easy to maintain and clean, making them ideal for food and beverage processing facilities.

Brazed plate heat exchangers are similar to gasketed plate heat exchangers, but the plates are joined together with a brazing material instead of gaskets. It makes them more resistant to high temperatures and pressures. These are often used in power plants and other heavy industrial applications. Brazing is a process in which two metals are joined together using a third metal with a lower melting point than the other two. BPHEs can be made from various metals, including copper, stainless steel, and nickel alloys. They're often used in applications with the potential for corrosion or leaks.

Welded plate heat exchangers (WPHEs) are made of a series of welded plates. They can be made from various metals, including stainless steel, carbon steel, and nickel alloys. WPHEs are often used in applications with high pressure or temperature potential. Welded plate heat exchangers are made by welding the plates together at the edges. It creates a stronger joint that can withstand higher temperatures and pressures than either gasketed or brazed plate heat exchangers. Welded plate heat exchangers are commonly used in petrochemical plants and other industrial facilities where they will be exposed to harsh chemicals and corrosive materials.

Plate heat exchangers are essential to many industrial processes, from food and beverage processing to chemical manufacturing. There are three main types of plate heat exchangers: gasketed, brazed, and welded. By understanding the different types of plate heat exchangers, you can choose the one that is best suited for your needs. And now that you know about the different types of PHEs available in the market, you can make an informed decision about which is right for your application.

If you have questions about PHEs or need help selecting one for your specific needs, please don't hesitate to contact Pragya Associates. Our team of experts would be more than happy to assist you.

The thermal industry has lot of applications specially for insulation. Thermal insulation is the process of insulating material from transferring heat between the materials that are in thermal contact. Thermal insulation is measured by its thermal conductivity. Low thermal-conductive materials are used for thermal insulation

Energy Efficient Range of Plate Heat Exchanger

A plate heat exchanger is a type of heat exchanger that uses metal plates to transfer heat between two fluids. This has major advantage over a conventional heat exchanger in that the fluids are exposed to a much larger surface area because the fluids are spread out over the plates. This facilitates the transfer of heat, and greatly increases the speed of the temperature change. Plate heat exchangers are now common and very small brazed versions are used in the hot-water sections of millions of combination boilers. The high heat transfer efficiency for such a small physical size has increased the domestic hot water flowrate of combination boilers. The small plate heat exchanger has made a great impact in domestic heating and hot-water. Larger commercial versions use gaskets between the plates, whereas smaller versions tend to be brazed. S Epichlorohydrin (67843-74-7) manufacturer India being in exclusive collaboration with many heat transfer technology provider also offers a wide range of plate sizes designed for a range of processes right from pharma, chemical, to power, marine, shipping, etc. sectors.

The construction of a PHE is the stack of embossed plates with suitable portholes fitted parallel to each other, resulting in equal fluid distribution on each side. Each plate is separated from the next with a gasket which separates the two and seals the flow gap from the atmosphere. The heat transfer plates separate two fluids and avoid mixing of process and utility fluids.

There are a variety of corrugation patterns designed on heat transfer plates, which can be selected for specific applications to achieve higher heat transfer rate and optimum pressure drops. These plates allow different heat transfer area with acute and obtuse angled corrugation. Heat transfer plates are mostly produced in AISI 316 L as this material is generally more corrosion resistant than AISI 304. Titanium is used depending upon the nature and corrosive properties of process / utility fluid and hastelloy is used for highly resistant acids and chlorides.

The heat transfer plates comes with double gaskets in the entry and exit area with leakage groove between two media, it prevents the media from mixing if the gasket leaks. The installation of gaskets is depending upon the design and type of plate heat exchanger, it comes with two different types, i.e., ‘adhesive’ and ‘clip-on’ gasket.

Features

·         Very high heat transfer rates due to thermodynamically optimised design.

·         Specially embossed entry fields for optimum distribution of media.

·         Gaskets fastened by´Clip-system´ for easy maintenance.

·         Gaskets have a special ribbed surface, enabling more exact centering and stabilization of the entire plate pack.

·         Double gasket with leakage groove between two media preventing mixing of the media.

·         Special plate profile at the edges, reinforcing the plate pack and ensuring high pressure resistance of the gasket during operation.

·         Multi sections units consisting two or more plate packs separated by intermediate plate or C-plates in cladded PHE.

Advantages

·         Low investment, operation and maintenance costs.

·         Highly efficient heat transfer.

·         Use of smallest temperature difference

·         Up to 75 per cent less space required.

·         Self-cleaning effect due to highly turbulent flow behaviour.

·         Future additional capacity is possible by fitting extra heat transfer plates.

·         Double gasket with leak groove gives high safety with regards to media mixing.

·         Easy to open/clean.

·         Low operating weight/low liquid content.

·         Easy availability of spares and quick supplies to service requirements.

 Application industries: Along with Power PHE is also used in cement, steel, chemical, petrochemical, pharma, fertilizer, paper and pulp, sugar, dairy, food and beverage, HVAC, distillery, breweries, automotive, textile, oil and fats, DG sets, effluent treatment, etc.

PHE  comes in following different models:

Gasketed plate heat exchanger:

This is the most widely used variant of PHE  which consists of a  set of embossed plates fitted adjoining top each other and each plate separated by a gasket. This is used for most oil, water, etc. applications. The gasket, which is mechanically secured or glued onto every plate, ensures that the flow gaps are securely sealed to the outside and from the second medium involved in the heat exchange. Also for different compositions and corrosive properties, the best fit material of construction of plates and gaskets are used.

Brazed Plate heat exchanger:

Consists of embossed plates , fit into one another and vacuum brazed with copper , nickel or stainless steel to form a compact and pressure proof unit. It is designed for applications like cooling of lube oil, condensing in refrigeration plant.

Cladded plate heat exchanger:

This is a well researched in-house design where the fixed plate and pressure plates are cladded with stainless steel or similar metals to make the outer surfaces compatible with process and utility fluids. This is effective in food, dairy, brewery and similar hygienic applications.

Depending on the conditions of use, the plates and gaskets  can be replaced, added, removed and re-assembled several times. PHEs are low investment and lower in operation and maintenance cost well. They have self cleaning quality  due to highly turbulent flow behavior.

It can also be used for smallest temperature difference. PHE spares , i.e., gasket , plates , etc. as required are easily made available to our customers.

EVALUATING PLATE HEAT EXCHANGERS

All plate heat exchangers look similar on the outside. The difference lies on the inside, in the details of the plate design and the sealing technologies used. Hence, when evaluating a plate heat exchanger, it is very important not only to explore the details of the product being supplied but also to analyze the level of research and development carried out by the manufacturer and the post-commissioning service and spare parts availability.

 An important aspect to take into account when evaluating a heat exchanger are the forms of corrugation within the heat exchanger. There are two types : intermating and chevron corrugations. In general, greater heat transfer enhancement is produced from chevrons for a given increase in pressure drop and are more commonly used than intermating corrugations. There are so many different ways of modifications to increase heat exchangers efficiency that it is extremely doubtful that any of them will be supported by a commercial simulator. The main objective of having a cost benefit heat exchanger compared to the usage of traditional heat exchanger must always be fulfilled by heat exchanger enhancement.

Plate heat exchanger’s gasket

A gasket-plate heat exchanger, called gasket PHE, where the gasket serves as a sealing element between the heat exchanger plates to prevent plate leakage. The quality of the gasket directly affects the quality and image of the heat exchanger.

In the HVAC industry, gaskets are mainly rubber products, which are greatly affected by temperature and media. Therefore, they are greatly affected by the formulation, the uniformity of components, and the conditions of vulcanization and shaping during the manufacturing process.

Requirements for gaskets:

1. Scientific formula, must have anti-aging, tear resistance, high rebound characteristics (reducing the reaction force caused by elasticity, the plate is not easy to deform) 2. The size of the sealed contact surface is accurate, and the alarm signal hole is sensitive. 3. Adhesive-free structure, easy to disassemble.

Gasket brand:

Examples of manufacturers approved by users: 1. Domestic brands: Wuhan Parker (recognized by the Beijing market), Xi’an Lianyi, Jiangsu Qidong, etc. 2. Foreign brands: DuPont, etc.

Positioning form of gasket:

1. Rubber pad 2. No rubber pad: hanging type, card type

The choice of gasket:

Medium temperature or Medium corrosion

Yuanzhuo equipment has been committed to manufacturing gasket plate heat exchangers for many years, has rich production experience, and has the most advanced plate heat exchanger technology exchanger. If you have any questions, please feel free to ask: http://www.yojointernational.com/

As Manufacturing, Production Companies & Utilities Prepare to Survive the Challenging Global Economy Currently Beset With Moderation, Innovative Heat Exchangers Will Witness Strong Opportunities for Growth

The global market for Heat Exchangers is forecast to reach US$26.1 billion by 2024 supported by opportunities for growth despite the challenges posed by the hugely mixed market expectations. The biggest challenge to industries and markets across the world is the global economic scenario. Global GDP recovery has plateaued, a trend that seems unlikely to recede in the coming years. The recovery in growth witnessed in 2015, 2016 and 2017 largely as a result of the temporary stimulus extended to the U.S. economy in the form of temporary tax cuts is now gradually being withdrawn as the federal government. Also, trade tensions highlighted by tit-for-tat tariffs imposed by the U.S. and China are additionally wielding a derogative influence on growth, business confidence and investments. Global GDP which recorded a 3.7% growth will remain flat and unchanged for the next couple of years. The year 2018 is expected to close with a 3.7% growth, while year 2019 will also witness an unchanged 3.7% growth. Few of the reasons cited for the projected stagnation in growth is rising political uncertainties; unfavorable trade policy and increased trade frictions which will result in broad-based stress to growth; instability in emerging markets which still remain vulnerable to external shocks and non-economic factors such as terrorism, disease outbreaks, and domestic conflicts; high fiscal and financial risk with global debt continuing to remain high; uncertainty cast by the global ramifications of policy changes and ideologies of the new Trump administration in the U.S.; political uncertainties and geopolitical threats in Asia, the Middle East and Africa.

 The heat exchangers market, under this scenario, offers ample growth opportunities for companies with winning culture anchored to innovation, even as recovery in global GDP plateaus at 3.7% through 2019. The weakening PMI through the 12 months of 2018 is keeping the industry on the edge with anxious anticipation. As stakeholders hold their breath and watch manufacturing output prepare for a dip in 3 of the world’s largest economies in the year 2019, innovative heat exchanger companies can steal opportunities offered for smart, advanced heat exchanger solutions capable of providing value via production improvements and efficiencies. For instance, while wild oil prices are expected to bring the pain back to the oil and gas industry, the less than desirable business climate doubles the emphasis on productivity and capital efficiency. Oil companies are scrambling to be better prepared for the next price crash by breaking even at prices as low as US$50 per barrel of Brent crude. The scenario will drive demand for energy efficient heat exchangers given their ability to make an impact on profitability of oil firms as heating and cooling remains the most expensive part of oil production and processing.

Other major trends in the market include growing prominence of robotic and intelligent process automation in the era of smart factories and the ensuing rise in commercial value of AI based heat exchanger control and monitoring; focus on heat recovery and utilization of sensible and latent heat from flue gas led by the robust outlook for clean coal power and the ensuing demand for heat exchangers in coal fired power plants; stable economic growth in East Asia and South Asia and development of energy infrastructure in these regions, strong manufacturing base and growing government policy led support for upgrades and modernization. The market, especially in the developed regions will witness greater demand for equipment that complies with strict regulatory and safety norms. The undeniable productivity benefits of industrial energy efficiency measures will spur the commercial value of energy efficient heat exchangers especially in developed countries where the growing popularity of energy audits is supporting increased spending on energy efficiency technologies. Europe represents the largest market worldwide.

As stated by the new market research report on Heat Exchangers, Asia-Pacific ranks as the fastest growing market with a CAGR of 6.5% over the analysis period led by factors such as positive CAPEX and OPEX investment climate in the sector; and favorable government led policies that prioritize industrial, manufacturing and process sectors for their ability to generate benefits of dynamic economies of scale, innovation/technology diffusion and spillover of a broad range of benefits for the economy and its growth.

Major players in the market include Air Products and Chemicals, Inc., Alfa Laval AB, Tranter Inc., API Heat Transfer, Balcke-Dürr GmbH, Barriquand Technologies Thermiques, Danfoss, Doosan Corporation, Enerquip, Inc., FUNKE WÄRMEAUSTAUSCHER APPARATEBAU GMB, Guntner U.S. LLC, Hamon Group, Harsco Industrial Air-X-Changers, Hisaka Works, Ltd, HRS Heat Exchangers Ltd, Johnson Controls, Kelvion, Koch Heat Transfer Company, McDermott, Mersen, SmartHeat Inc., SPX Cooling Technologies, Inc., SPX FLOW, Inc., SWEP International AB, Vahterus Oy, and Xylem Inc. among others.

The research report titled “Heat Exchangers – Market Analysis, Trends, and Forecasts” announced by Global Industry Analysts Inc., provides a comprehensive review of market trends, issues, drivers, mergers, acquisitions and other strategic industry activities of global companies.  The report provides market estimates and projections for all major geographic markets such as the U.S., Canada, Japan, Europe (France, Germany, Italy, UK, Spain, Russia and Rest of Europe), Asia-Pacific (China and Rest of Asia-Pacific), Latin America and Rest of World. Product segments analyzed in the report include Shell & Tube Heat Exchangers, Plate Heat Exchangers (Gasketed PHE, Welded PHE, Brazed PHE and Other PHE), Air Coolers, Cooling Towers and Others. End-use sectors analyzed in the report include Chemicals, Oil & Gas, HVAC & Refrigeration, Food & Beverage, Power Generation and Others.

Global Industry Analysts, Inc. 6150 Hellyer Ave., San Jose CA 95138, USA, All Rights Reserved.

For enquiries e-mail us at [email protected] or [email protected].         For cutting edge analyst reviews on top industries, follow us on Twitter and connect with us on LinkedIn

Alfa Laval is a leading manufacturer and supplier of plate heat exchanger gasket. Gasketed plate heat exchangers (GPHE) optimizes heat transfer. The arrangement of the gaskets allows through flow in single channels. This enables the primary and secondary media in a counter-current flow. The mediums are not mixed because of the gasket design.

To know more about Heat Exchanger Gasket, visit our website: https://www.alfalaval.in/products/heat-transfer/plate-heat-exchangers/gasketed-plate-and-frame-heat-exchangers/

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Plate Heat Exchanger Manufacturer In India

The plate heat exchanger consists of a number of thin, pressed metal from high-quality corrugated sheets. Two or more different fluid temperature profiles pass through alternative channels for heat transfer.

Gasketed Plate Heat Exchanger : Elastomeric Gasket are provided between two disc channels to provide flow pattern according to design conditions. Semi-Welded Plate Heat Exchangers : Alternatively, a pair of plates is welded together to form a Semi-Welded plate heat exchanger. Between the two pairs of welded plates are provided elastomeric seals CHARACTERISTICS

Connections : screw / drawn / flange / screwed

Design Standards : ASME / PED / DIN

Consulting equipment : SS304 / SS316L / Ti / SMO 254 / Hastelloy

Sealing material : NBR / EPDM / HEPDM / CR / Viton / PTFE

Pressure / temperature : · 6 to 30 bar / -20 to 240 ° C

Flow rate / PHE : 4-1200 m3 / h

Galaxy Industrial Equipment is Leading Heat Exchanger Manufacturer In India and provide complete fluid mixing solutions.

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