WiseWater Pool Heat Exchanger Shell and Tube Heat Exchanger Shell and tube heat exchanger is the most typical dividing wall type heat exchanger, its application in the industry has a long history, and it still occupies a dominant position in all heat exchangers. A shell and tube heat exchanger consists of a shell (a large pressure vessel) 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 wall of the tube bundle is the heat transfer surface. An essential component for swimming pool heating systems and other water heating applications, Swimming Pool Heat Exchangers are designed to maximize water heating efficiency and save money and energy. Pool Heat Exchanger Details Min. & Max. Working Temp.: -19F – 406F Design Pressure: 190psi Test Pressure: 285psi Applications Pool/Spa/Hot Tub HeatingResidential and Industrial ApplicationsWater HeatingForced Air Heating SystemsFloor HeatingSnow MeltingSolar Hot Water HeatingOutdoor Wood FurnacesSolar Pool Heating System Working Theory Two fluids of different starting temperatures flow through the heat exchanger. One flows through the tubes (the tube side), and the other flows outside the tubes but inside the shell (the shell side). Heat is transferred from one fluid to the other through the tube walls, either from the tube side to the shell side or vice versa. Spiral-corrugated Tube Design Our product has an innovative spiral-twisted, corrugated tube design that is engineered to maximize solar or boiler energy, increasing the overall thermal efficiency of the system. The tube's design also ensures high velocities inside the unit, making this heat exchanger a very reliable, efficient, and cost-effective way to transfer heat indirectly between any hot water circuit, steam circuit, and pool or spa application. Titanium Shell and Tube Heat Exchanger for Salt Water Titanium Shell and Tube Heat Exchangers Titanium Shell and Tube Heat Exchangers are suited for many chemical environments and conditions due to a thin, invisible, but highly protective surface oxide film (primarily TiO2). Titanium is especially known for its elevated resistance to localized attack and stress corrosion in aqueous chlorides (e.g., brines, seawater) and other halides and wet halogens (e.g., wet CI2 or CI2- sat, brines), and to hot, highly-oxidizing, acidic solutions (e.g., FeCI3 and nitric acid solutions). Titanium is also recognized for its superior resistance to erosion, erosion-corrosion, cavitations, and flowing, turbulent fluids impingement. Titanium material is highly recommended for saltwater systems, as it is the only model that can withstand that kind of water. Fluid Layout Instructions In shell and tube heat exchangers, there is a potential for a tube to rupture and for high pressure (HP) fluid to enter and over-pressurize the heat exchanger's low pressure (LP) side. To avoid risk to people and financial loss, the usual configuration of exchangers is for the HP fluid to be in the tubes and LP water, cooling, or heating media to be on the shell side. Precaution before Installation Please always install the heat exchanger in a counter flow pattern, as shown in the above picture. The heat exchanger should be installed downstream of the filtration and pumping equipment. The boiler water must be assisted and the usal precautions taken to prevent air locks. The pool water pump should be controlled by a thermostat in the pool pipe work before the heat exchanger and set at the required temperature. A heat exchanger is a device that transfers part of the heat of a hot fluid to a cold liquid. 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 divided into partition type, hybrid type, and regenerative type. The partition wall heat exchanger is the most widely used among the three types of heat exchangers. According to the shape and structure of the heat transfer surface, it can be divided into the shell and tube heat exchanger and plate heat exchanger. 3"x 8", 3/4" MPT 4"x 12", 1" MPT 5"x 12", 1 1/4" MPT Sidearm Heat Exchanger Radiant manifold Loop Hot Water Pump Add to Cart Add to Cart Add to Cart Add to Cart Add to Cart Add to Cart Customer Reviews 4.2 out of 5 stars 35 4.6 out of 5 stars 169 4.2 out of 5 stars 67 4.0 out of 5 stars 12 4.4 out of 5 stars 170 4.1 out of 5 stars 243 Price $139.95$139.95 $182.98$182.98 $175.99$175.99 $186.99$186.99 $145.99$145.99 $75.99$75.99 no data no data no data no data no data no data