alfa laval process shell and tube heat exchangers

Alfa Laval - Compabloc Stainless Steel Heat Exchanger

With over 30,000 units handling tough duties worldwide, Compabloc is the market champion when it comes to heat transfer. It is engineered for superior reliability and performance under challenging conditions, with 3-5 times the thermal efficiency of traditional shell-and-tube solutions along with a compact design that is easy to install and service.

Alfa Laval - Compabloc+ - Welded Plate and Block Heat

Alfa Laval Compabloc heat exchangers product brochure.pdf 2020-03-26 805 kB. shell-and-tube heat exchangers have been used to recover heat in this energy-intensive process. More details. Complete Compabloc range. Compabloc offers 3-5 times the thermal efficiency of traditional shell-and-tube solutions, with a more compact design that is Alfa Laval - DiabonThis range of heat exchangers combine Alfa Laval's know-how in heat transfer with Germany based SGL Carbon's expertise in graphite process equipment. Alfa Laval Diabon® gasketed plate-and-frame heat exchanger combines high-efficiency heat transfer benefits with the exceptional corrosion resistance of graphite material.

Alfa Laval - GPHE vs Shell-and-Tube Heat Exchangers

Our shell and tube heat exchangers are used in many comfort and industry applications for heating and cooling fluids. In addition, our process shell-and-tube heat exchangers are designed and built for the toughest applications in chemical processing industries, oil & gas production, and power stations. Alfa Laval - Olmi carbamate condensersUsed in the medium- and high-pressure synthesis sections of urea plants, Alfa Laval Olmi carbamate condensers recombine uncoverted carbon dioxide and ammonia into a carbamate solution for reuse in urea processes. Heavy-duty shell-and-tube heat exchangers, Olmi carbamate condensers come backed by Alfa Lavals vast process know-how, advanced welding and process technology, and solid support

Alfa Laval - Olmi shell-and-tube high pressure

Olmi shell-and-tube high pressure Alfa Laval Olmi high-pressure shell-and-tube heat exchangers efficiently handle heat transfer under the harshest conditions at refineries, petrochemical and power plants and other facilities worldwide. Alfa Laval - PackinoxAlfa Laval Packinox combined feed/effluent plate heat exchangers comprise a welded bundle block and a pressure vessel. Heat transfer takes place solely within the bundle block, which means there are no process fluids circulating inside the shell itself.

Alfa Laval - Pharma-line

Alfa Laval Pharma-line is a high-quality shell-and-tube heat exchanger especially developed to meet the high hygienic demands of the pharmaceutical industry. Flexibility in the design makes it suitable for many hygienic applications, whatever the demands. Alfa Laval - ServiceAlfa Laval DuroShell is designed to make cleaning and maintenance easy, with far less required than for labour-intensive shell-and-tube heat exchangers. In fact, DuroShell even involves less maintenance than other plate-and-shells.

Alfa Laval - Steel production

Alfa Laval plate heat exchangers are an efficient and compact alternative to traditional shell-and-tube heat exchangers used in cooling transformer oil, morg oil, lubricating oil and gear oil. Whats more, our specially developed double-wall plate heat exchanger eliminates the risk of cross mixing of any lubricating fluids and cooling media Alfa Laval - Tube-in-tube heat exchangersThe Alfa Laval Tube-in-tube heat exchanger modules are typically connected in series and mounted on a frame. The shell tube is always smooth while the product tube is either corrugated or smooth depending on the application. The installation is maintenance free, thus eliminating any need for spare parts. The layout of tube-in-tube heat exchangers can be customised to fit the available installation

Alfa Laval - Tube-in-tube heat exchangers

The new Alfa Laval Tube-in-tube heat exchanger is specifically designed for sludge which contains fibres and particles, making it ideal for heating and cooling of most wastewater sludge. The equipment consists of a single tube mounted inside an outer shell tube, so that the product medium flows counter-current through the inner tube, with the Alfa Laval - Waste heat recoveryMany process industries are already recovering heat, but use shell-and-tube technology. Switching to compact heat exchangers boosts the energy efficiency and is a very good investment in most cases. alfalaval +46 46 36 65 00 [email protected]

Alfa Laval - Welded plate-and-block heat exchangers

Today, Compabloc heat exchangers are found in all types of process duties all over the world, where they provide as much as 5 times the thermal efficiency of traditional shell-and-tube solutions. Where there are higher pressure demands, the Compabloc+ offers the same level of efficiency with safe operation up to 60 bar. Alfa Laval - Welded plate-and-shell heat exchangersThe Alfa Laval portfolio of welded plate-and-shell heat exchangers offer ultimate robustness for challenging high pressure process duties. They are designed for high temperatures and high pressures, primarily for clean process fluids. The units deliver efficient heat transfer with a small footprint, which makes them ideal where space is restricted.

Alfa Laval - Welded spiral heat exchangers

Mar 29, 2019 · Alfa Laval spiral heat exchangers are designed to handle the toughest heat transfer challenges. Whether its frequent fouling from dirty media, or limitations from pressure drop and floor space, they are the ultimate problem solver for liquid-to-liquid and two-phase duties. Alfa Laval Heat Exchangers Moody Heat ExchangersThe Alfa Laval range of tubular heat exchangers includes process gas boilers, process shell-and-tube, quench, shell-and-coil, shell-and-tube condensers, shell-and-tube evaporator, shell-and-tube and tube-in-tube heat exchangers. Tubular HE.

Alfa Laval Shell-and-Tube Heat Exchangers Moody Heat

Alfa Laval Shell-and-Tube Heat Exchangers. ViscoLine Range. For thermal solutions for viscous food the ViscoLine range is a series of highly efficient heat exchangers that have been designed to handle your food processes in the most gentle manner. Beverages and viscous food, as well as other products, often either have high viscosity or contain Alva Laval Heat Exchanger Sales Product Representative This plate-and-shell unit works well with aggressive media such as organic solvents that are beyond the capabilities of gasketed heat exchangers. Pressure to 700 psig, temperatures to 1000F. Spiral Heat Exchanger. Self-cleaning design make Alfa Laval Spiral Heat Exchangers extremely versatile.

Comparisons on Plate & Frame Heat Exchangers - Alfa Laval

Oct 14, 2020 · 20:30 - Flex-Flow Plates The next step in Heat Exchanger Optimization! Sandeep Kumar. 24:35 - Gasket insights & Selection.Sandeep Kumar. 34:01 Three innovations in Heat Exchanger Frame Design that lower cost of service. Grecia Ayala. 38:12 - Comparisons on Plate & Frame Heat Exchangers with Shell & Tube Exchangers.Grecia Ayala. 41:32 Selection of process heat exchangers, the HexPert platform Selection of process heat exchangers, the HexPert platform, Sylvia Kiriaqus. Watch the webinar recording to see how to select your own heat exchangers with professional speed and confidence. Stay tuned for the next webinar on 11:20 Compabloc heat exchanger technology. Compabloc versus Shell and Tube technology:Using the

WideGap plate heat exchangers - Alfa Laval

SantelisaVale replaced 15 inefficient shell-and-tube units with six Alfa Laval WideGap plate heat exchangers. The WideGaps recover heat from two process streams and use it to preheat mixed juice. The revamp led to a cut in live steam consumption by 40-50%. The excess steam is now used for electricity generation. How WideGap worksAlfa Laval - Shell-and-tube heat exchangerOur shell and tube heat exchangers are used in many comfort and industry applications for heating and cooling fluids. They consist of a shell with traditional plain tubes or enhanced surface tubes for high thermal performance. The fluids can be liquids or gases, one of which flows inside the tubes while the other flows outside the tubes within the shell.