Shell and Tube Heat Exchangers can be referred to the heat exchangers which are used to transfer heat from one fluid to another or sometimes one medium to another medium. Here the fluid go through a set of titanium tubes, and at the same time another fluid passes all the way through the shell enclosed with the tubes. Thus the titanium heat exchangers are useful for the function application involving high temperature and pressure, or the circumstances where fluid includes particles.

For the recent days industrial application two major types of  Shell and Tube Heat Exchangers are used, and  those are firstly U- Tube Heat exchangers and secondly Straight Tube Heat exchangers. The U- Tube Heat exchangers make use of a U-shaped tubes fixed, while the straight tubes are get supported through a set of straight tubes.

However, a lot of factors should be taken into consideration while manufacturing Heat Exchanger Tubes such as thickness of the wall, eccentricity, length, and the dimensional tolerances for diameter. That is the main reason, where it needs requisite mechanical properties, like corrosion resistance as well as surface finish.

Because of the extremely specialist nature of the metal, Titanium Heat Exchangers are intended in the fashion to match with a customer's specific requisites guarantying that the best possible heat exchanger is preferred for your purpose application.

Novel and energy efficient technologies are used for the material production of titanium metal as well as alloy powders. Then various advanced consolidation technologies are used for the conversion of metal powders into mill product like titanium sheet, titanium tubes, and titanium plate and titanium wire. The efficient fabrication technologies are involved like direct manufacturing and cold spray for the production of advanced energy.

Stanford is one of the foremost manufacturers of titanium heat exchanger, along with titanium seamless tubes and titanium welded tubes and titanium tubes intended for purpose application in the area of power generation from the sources like nuclear, refinery and petrochemical, thermal and solar power plants, oil and gas, process industries, chemical and fertilizer, defense, pulp and paper industries, atomic energy and aerospace etc.

Titanium heat exchangers are engineered in the fashion for effective heat transfer from a source medium to another.  As Stanford manufacture and fabricate the best heat exchangers with exotic materials such as titanium and zirconium, so it is only Stanford that often presents its customers with effective cost and all possible delivery solutions that are not evident when trading with any other ordinary materials.

For more information about titanium and other advanced materials, please visit


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