1.Enhance turbulence: This product adopts a tubular array layout structure, which can effectively enhance the turbulence of the gas in the shell side and eliminate the flow stagnation zone.
2.Reduce pressure loss: Due to the relatively sparse arrangement of the tubes in the array, the resistance of the gas flowing in the shell side is greatly reduced.
3.Reduced-speed condensation: The design of large-diameter cylinders and arrayed coiled tubes significantly reduces the gas flow velocity in the shell side, which is more conducive to the condensation of condensable components below the dew point.
4.Less prone to blockage: The sparse design of the array tubes avoids the deposition of dust in the flue gas and the blockage caused by icing and frost formation in the deep cooling process, thereby reducing maintenance costs.

The Shell and Tube Heat Exchanger serves as an industrial-grade high-efficiency thermal energy exchange solution, with its core structure consisting of a shell, tube bundle, tube sheet, and baffles. It achieves energy transfer through the cross-flow/counter-flow design of tube-side and shell-side media. Crafted from diverse materials such as carbon steel, stainless steel, and titanium alloy, it adapts to a temperature range of -20℃ to 350℃ and an operating pressure of 1.6-10MPa. Especially, titanium alloy, in highly corrosive environments like wet chlorine gas and hydrochloric acid, features an annual corrosion rate of <0.01mm and a service life exceeding 15 years.