Heat exchangers in Thermo Plate-design Type XPT + variable + cleanable + efficient + safe FULLY WELDED
The XPT for use in a wide range of applications + The pillow-shaped design of the Thermoplates permits optimum flow with sufficient turbulence, creating excellent conditions for efficient heat exchange while minimising pressure loss. Thermo Plate heat exchangers consist of an arrangement of two metal plates that are completely welded together along the sides. These plates are also connected by spot welds distributed across the entire heat transfer area. The position, number and pattern of the spot welds determine the operating pressure and the flow pattern. The spacing between the welded pairs of Thermoplates is variable, depending on the medium used between the plates. During the manufacturing process, the welded plates are pressed apart using water or gas until they reach the desired channel cross-sections. The resulting hollow space for the medium is referred to as the lamellar side. The channel cross-section influences both the heat transfer and the pressure loss. For certain applications additional weld seams are included, to optimize the flow distribution. The inclusion of such flow channels also changes the flow velocities and the heat transfer coefficients. The pillow-shaped design causes turbulence in the current and creates a self-supporting structure. No forces are transferred outward from the individual Thermoplates, i.e. to the next plate or on the mantle these forces would otherwise need to be absorbed by the casing. Multi-channel design on the lamellar side In XPT heat exchangers it is possible for the medium to be channeled in a counter, parallel or cross-flow configuration. Thermoplates, round design In principle, Thermoplates can be manufactured in any size. Also, they can be produced in a variety of shapes and are thus easy to fit into or onto existing tanks, columns, etc.
Type XPT Applications Fully welded Thermo Plate heat exchangers are individually optimized for each project in accordance with the technical and commercial specifications, e.g. for heating and cooling, for use as condensers or as falling film evaporators. XPT heat exchangers are also suitable for applications involving contaminated gases or liquids. The smooth, undulating surface allows for CIP cleaning or high-pressure cleaning with good results in comparison to other types of heat exchanger. For certain applications the heat exchangers can be fitted with permanently installed CIP systems. XPT with CIP cleaning system Common areas of application include: + Chemical industry + Paper production + Heat recovery from exhaust gases + Wastewater plants + Textiles industry and many more XPT as a water/air economizer Advantages over other types of heat exchanger Thermo Plate HEX Tube bundle HEX Plate HEX Spiral HEX with gaskets Temperature range < 800 C > 800 C < 170 C < 350 C Maximum pressure < 60 bar < 200 bar < 32 bar < 25 bar Relative k-values 3500 2700 5600 2000 in water [W/m 2 K] Air or gas applications suitable suitable suitable with suitable with vs. water restrictions restrictions Can be inserted in tanks yes limited no no or flowing water Can be welded onto yes no no no tanks or reactors Can be fitted in existing very flexible limited no no columns etc. Fully welded yes yes no no design Suitable for use in yes yes limited yes heavily soiled media Weight/surface moderate high low high ratio Falling film condensers suitable suitable limited limited and evaporators
XPT model Solutions Process Therm The Process Therm system is a recuperator (heat recovery system) that allows the re-use of exhaust air, thus reducing energy consumption. The Process Therm unit is installed in the exhaust air duct. With its fully integrated CIP system, it is also capable of handling dust-laden air. The energy recovered is fed to a preheater, e.g. to preheat incoming air. Its compact design, with 150 to 200 m 2 per cubic meter of apparatus volume, allows the Process Therm to be integrated in practically any existing plant. All in all, the Process Therm promises short payback periods and a significant reduction in CO 2 emissions. Therm-X The Therm-X is a self-cleaning heat exchanger developed for heat recovery, cooling and warming fibrous or contaminated process fluids. It consists of centrically arranged Thermoplates, which are constantly cleaned by integrated brushes. This keeps contamination to a minimum and optimizes the heat transfer process. The brushes prevent particles from being deposited on the Thermoplates, thereby extending the operating life of the system The heat exchanger can be operated with various heating or cooling media such as steam, water and ammonia. The heat exchanger is shaped like a tank, thus allowing heat transfer even at irregular flow rates or if there are intervals or interruptions in the medium throughput. Spiral The Spiral heat exchanger can handle contaminated fluids or sludge on the exposed side, while clean media are passed over the inner surface of the plates. Thanks to the spot welds there is no need for spacer pins, meaning that it is impossible for large quantities of fibers to accumulate. The side of the Spiral heat exchanger that is exposed to contamination can be opened for inspection and cleaning purposes. The curved channels provide ideal conditions for flow and heat transfer using a wide range of different fluids, while also keeping the apparatus size to a minimum. Compared with conventional spiral heat exchangers, the pillowshaped surface results in higher levels of turbulence and thus improved heat transfer rates. Gas/Gas Because it is made of stainless steel or high-alloy materials, the Gas/Gas heat exchanger is suitable for use with aggressive gases or atmospheres. The free space between the plates is adjusted to suit the individual requirements of the application. The size of the apparatus can be varied considerably depending on the space available in the plant. The great advantage of the Gas/Gas heat exchanger is the fact that it is capable of handling dust-laden air or gases, which would normally block apparatuses with narrow channels. TP HEX The TP HEX can be made of any kind of cold-formed materials. Its greatest advantage is its elongated form with the resulting longitudinal flow on both sides, which has a highly positive effect on the thermal efficiency. The narrow channels of the TP HEX give the apparatus a small diameter, which in conjunction with the special shape of the Thermoplates, creates the desired turbulence. The heat transfer in the TP HEX is better than in conventional tube bundle heat exchangers, in which part of the permitted pressure drop is lost in reversing the flow direction. Another advantage is the small amount of space between the plates, which results in a compact design with a large heatexchange surface within a limited construction volume. This is especially advantageous for existing plants with limited space. COND XPT condensers are designed and produced in a wide range of individually adapted designs, have proven themselves over the course of many years of service, and are constantly being optimized. They are suitable for wide range of processes and known for their robustness. We supply condensers made of stainless steel and other highalloy materials. The condensers are primarily used as head condensers in distillation plants and exhaust condensers in incineration plants.
Applications Product benefits Type XPT All processes with high dust levels in the exhaust air. Food processing plants Chemical plants Wood and paper processing Textiles industry and other, similar processes Zero maintenance in dust-laden air Can be cleaned while running Available with integrated CIP system Can be used for vacuums up to 100 mbar Heat recovery at constant condensation rate Allows use of high-alloy materials With high quantities of wash water, up to 500 kw can be transferred to the fresh water, thus achieving significant savings. Swimming pools Wastewater plants Textiles industry Paper production Laundries and other, similar processes Self-cleaning apparatus with adjustable-speed motor High efficiency thanks to the brush motion, which causes turbulence Easy to inspect Available in various grades of steel Highly variable in terms of tank size and number of annular heating elements The curved channels provide ideal heat transfer and flow control for a wide range of fiber-laden fluids. Wastewater plants Sludge treatment Heat recovery from biomass Paper and pulp mills Petrochemicals and other fluids with a high fiber content No contact between the plates on the product side Higher levels of turbulence and higher k-values due to curved plates Uses thin plates made of stainless steel Easy to clean and inspect on the product side Especially suitable for heat recovery from aggressive atmospheres or gases. Chemical industry Food industry and other industrial sectors Suitable for air or gases laden with dust or particulates Can be used in aggressive atmospheres Suitable for high temperatures Both sides can be cleaned manually or with CIP With a few adjustments, the TP HEX is the perfect solution for a wide range of uses where heat needs to be transferred between liquids and gases. Coolers Heaters Condensers Reboilers Evaporators Low-maintenance thanks to self-cleaning surfaces and gasket-free design Up to 3 times smaller than tube bundle heat exchangers Efficient heat transfer due to large contact surfaces Low fouling tendency due to optimum turbulence CIP system available on request Also available in a fixed configuration Higher pressure resistance than heat exchangers with gaskets Can be used as head condensers in distillation plants and exhaust condensers in incineration plants. Power plants Chemical processing plants and in other, similar processes Sturdy, robust design Easy to clean High efficiency
GESMEX Facts & Figures Innovative product development A very large proportion of the money invested by GESMEX goes into product development. We conduct development projects in close cooperation with universities and experienced engineering firms. The results are confirmed by performing worst-case tests such as burst tests, thermal cycling tests, and testing at low temperatures. In addition to this, we also realize unique apparatus concepts such as the replacement of tube bundles with stacks in existing tube-bundle heat exchangers. Application-appropriate dimensioning GESMEX heat exchangers are individually dimensioned for each use case. XPS heat exchangers are custom-designed using a design program called GSX-Calc, which is based on cell model theory and whose results are constantly validated in test series. The program is regularly optimized specifically for complex applications such as condensation, partial condensation or partial evaporation. The dimensioning of XPT Thermo Plate heat exchangers is based on the over 30 years' experience of our cooperation partner, ACO Engineering. State-of-the-art production plants At the core of the production process of XPS heat exchangers is our laser-welding center. In cooperation with the world market leader in laser welding technology, GESMEX has developed a process with high weld seam quality and repeatability. Our production plants also have WIG and MAG welding workstations, assembly and testing equipment as well as the warehouses and logistics facilities of a medium-sized industrial company. Strong partners GESMEX offers solutions for the processing industry worldwide. For the distribution and production of XPS plate & shell heat exchangers in America and Asia, GESMEX cooperates with strong partners in the region. XPT Thermo Plate heat exchangers are manufactured by ACO Engineering in Denmark and are an ideal complement to the GESMEX product range, in particular for gases, for media containing fibers, and for polluted or contaminated media, at high temperatures or for special installation situations. XPT heat exchangers are exclusively marketed by GESMEX in Germany and neighboring countries. Qualified order processing From preparing a quote to delivering the finished product, our team of qualified engineers and skilled workers is at your service, with experts in thermodynamics, works experts for pressure vessels, CAD design engineers and welding specialists. As a medium-sized company, our organizational structure allows us to produce to our company s individual standards and norms, as well as enabling us to react quickly to changes made at short notice.
XPT Facts & Figures Type XPT Models and sizes We offer six designs, based on the principle of spot welded and pressure-formed Thermoplates: + XPT Process Therm + XPT Therm-X + XPT Spiral + XPT Gas/Gas + XPT TP Hex + XPT-COND Operating parameters The maximum operating parameters depend primarily on the system size, the materials used and the material thicknesses. Operating pressure: -1 bto 60 bar Operating temperatures: -200 to 800 C XPT COND 180 Type Model Size class (m 2 ) International standards XPT heat exchangers are manufactured in accordance with various international provisions regarding pressure equipment: Europäische Druckgeräterichtlinie DGRL AD2000/EN 13445 SPVC CODAP Stoomvezen ASME Code inkl. U-Stamp On site service At the ACO Engineering headquarters in Denmark, a team of service technicians is on hand for assembly and maintenance of XPT heat exchangers, ready for action wherever and whenever they are needed, anywhere in the world. Product name
GESMEX is a manufacturer and supplier of compact heat exchangers for industrial applications. We invest in the development of products and production technologies to ensure efficient apparatuses and safe systems for our customers. To provide an optimum range of products and services, we cooperate with reliable and highly efficient distributors and manufacturers around the world. Please use this code to connect to www.gesmex.com + + GESMEX GmbH Werkstrasse 226 D-19061 Schwerin Germany Phone +49 385-61 73 86-0 Fax +49 385-61 73 86-29 Email: info@gesmex.com web: www.gesmex.com