Titanium Grades Used in the CPI

Titanium can seem confusing at first. There are 40 grades of titanium and it’s not clear why you’d use one over another. Fortunately, there are only a handful (seven) that are the most important to get a handle on for the chemical process industry and understanding where they all fit relative to each other is actually pretty simple. The purpose of this document is to talk about those 7 grades, what applications they are used for in general terms, and the reasons they are different. Click here to continue reading the blog post “Titanium Grades Used in the CPI”.

Design and Fabrication of Hypochlorite Storage Tanks Using Titanium

This technical white paper explores the design, fabrication, and lifecycle considerations for hypochlorite storage tanks, focusing on the use of titanium as the material of choice. Due to the challenges associated with hypochlorite storage, such as corrosive environments, traditional materials like carbon steel and stainless steel often face reduced lifespans. Titanium provides a durable, corrosion-resistant alternative, extending the service life of these tanks significantly. This paper covers essential design elements, compares ASME and API code standards, details fabrication techniques for both shop and field applications, and presents lifecycle cost analyses comparing titanium tanks to alternative materials.

Click here to download Whitepaper on Design and Fabrication of Hypochlorite Storage Tanks Using Titanium

Best Practice Recommendations for Storing Sodium Hypochlorite in Titanium Storage Tanks

Titanium, grade 2, is an excellent material choice for storage of Sodium Hypochlorite. It is the longest lasting and lowest maintenance solution for storage tanks in this service. There are some key design, fabrication, operation and maintenance considerations to keep in mind to ensure maximum performance and reliability.

Click here to download Best Practice Recommendations for Storing Sodium Hypochlorite in Titanium Storage Tanks

Titanium Grade 12 - Alternative Alloy for Cost Reduction & Corrosion Resistance

Titanium Grade 12 – Alternative Alloy for Cost Reduction & Corrosion Resistance

Titanium Grade 2/2H (UNS R50400) is the workhouse alloy used in the Chemical Processing Industry (CPI) to combat against corrosion and give a long, maintenance-free life. This Grade is essentially pure titanium with a yield strength minimum of 40 ksi and a minimum ultimate tensile strength of 58 ksi for Grade 2H.

Click here to download Whitepaper on Titanium for Industrial Application

Titanium: Available and Affordable Material of Construction for Industrial Applications

Titanium: Available and Affordable Material of Construction for Industrial Applications

When you hear the word ‘titanium’, what do you think? Most people would think aerospace and airplane applications, when it is much more than that. Many also associate the word titanium with ‘expensive’, when in reality, it is actually cost effective.

Many would also think ‘unobtainable’, when it is readily available. While a majority of the titanium used today goes into the aerospace industry, there has been much progress made in the use of titanium in the corrosion control market – in chemical processing, refining, offshore, and other industrial markets. In fact, the use of titanium continues to grow as more and more design engineers, process engineers, reliability engineers, plant engineers, and company executives understand the value of this metal and its alloys, and specify its use for their projects that require corrosion resistance

Click here to download Whitepaper on Titanium for Industrial Application

The Use of Titanium for Heat Transfer in the Chemical Processing Industry

The Use of Titanium for Heat Transfer in the Chemical Processing Industry

The transfer of heat from one fluid to another is an essential component of all chemical processes. Whether it is to cool down a chemical after it has been formed during an exothermic reaction, or to heat-up components before starting a reaction to make a final product, understanding the elements to design an effective, efficient heat transfer system is the key to cost-effective manufacturing of most chemicals today. This understanding not only includes having the knowledge of various fluids’ physical characteristics and chemical makeup but also flow rates, system temperatures, and allowable pressures and pressure drops.

Titanium, which has been in the heat exchanger service for almost 60 years in refineries and nuclear power facilities, offers several different alloy grades that can be used in heat transfer equipment in the chemical process industry.

Click here to download Whitepaper on Titanium for Heat Transfer in the Chemical Processing Industry

clad metal repair

White Paper – Clad Metal Repairs

Clad metal materials are widely used in industrial applications due to their enhanced mechanical properties and corrosion resistance. However, damage can occur to the cladding due to various factors, necessitating a repair. This whitepaper offers specific guidance based on tests performed in Tricor’s shop by welders experienced in welding of Titanium and executing these types of repairs.

Click here to download Whitepaper on Clad Metal Repairs

 

Tantalum Heat Exchangers for Hydrochloric and Sulfuric Acid Pickling Applications

Tantalum Heat Exchangers for Hydrochloric and Sulfuric Acid Pickling Applications

For more than two decades Tantalum has proven itself to be a superior material when used in hydrochloric and sulfuric acid steel pickling applications. 

Tantalum, being a refractory metal, gets its corrosion resistance from a continuously regenerating oxide layer that occurs during the use in chemical service. The oxide layer is both corrosion resistant and erosion resistant proving itself a superior choice for corrosion resistance and reliability in hydrochloric acid steel pickling applications.  Tantalum is totally up inert in the concentrations and temperatures of hydrochloric acid used in steel pickling. 

Tantalum heat exchangers utilize it fully welded metal design that has proven to meet the mechanical challenges associated with steel mill operations.   Tantalum heat exchangers are smaller than other heat exchangers used in this service and are easily accessible for inspection and cleaning. 

The erosion resistance of the tantalum tubes allows for acid velocities through the heat exchanger that improves heat transfer as well as reduce fouling associated with the reprocessing of pickled steel.

Benefits of tantalum heat exchangers in steel pickling applications are:
  • Tantalum heat exchangers can be designed to utilize up to 150 psig steam with standard gauge tantalum tubing. The use of higher-pressure steam reduces the heat transfer surface area required at a given heat load, reducing the cost of tantalum equipment over other materials. 
     
  • Tantalum heat exchangers are a fully welded metal that are dye penetrant tested, helium leak tested and then hydrostatically tested to ensure a 100% leak free heat exchanger at time installation.   Tantalum heat exchangers are considered more rugged than heat exchangers of other materials used in this application I have been known to be damaged in handling, installation, and transportation.

     

  • Tantalum utilizes standard off the shelf, gaskets and hardware that are available from your parts inventory or from local pipe and valve distributors. 

  • Tantalum heat exchangers can be designed to fit into the mounting and acid piping footprint of carbon block or other heat exchangers.