Electrolyzer Ptl Titanium Plate

Titanium plates with flow fields are essential components used in electrolyzers for various industrial applications. These plates, made from corrosion-resistant titanium materials, are designed with intricate flow field patterns to optimize the electrochemical process of water electrolysis. Electrolyzers equipped with titanium plates and flow fields play a crucial role in industries such as hydrogen production, water treatment, and chemical processing. Electrolysis is a process that involves the decomposition of water into hydrogen and oxygen gases through the application of an electric current. Titanium plates with flow fields are specifically designed to enhance the efficiency and performance of this electrochemical reaction. The flow field pattern on the titanium plate ensures a uniform distribution of gases and electrolytes, maximizing mass transfer and minimizing concentration gradients. This results in improved electrolysis efficiency, higher production rates, and enhanced product quality. The flow field pattern on the titanium plates can vary depending on the specific electrolyzer design and application requirements. Common flow field patterns include serpentine, interdigitated, or customizable designs tailored to optimize mass transfer and current distribution. The flow fields induce controlled turbulence, reduce diffusion path length, and prevent the accumulation of gas bubbles, further enhancing the overall efficiency of the electrolysis process. Specifications: Material: Titanium (Grade 2 or Grade 5) Plate Thickness: 0.5-30 mm Flow Field Pattern: Serpentine, Interdigitated, or Customizable Dimensions: 90*90mm Customizable Features Enhanced Mass Transfer: The flow field pattern on titanium plates promotes efficient mass transfer of gases and electrolytes, ensuring uniform distribution and maximizing the electrochemical reaction efficiency. Improved Current Distribution: The optimized flow field design helps achieve uniform current distribution across the electrode surface, minimizing localized effects and improving electrolyzer performance. Extended Lifespan: Titanium's corrosion resistance and durability contribute to the longevity of electrolyzers, reducing maintenance costs and downtime. Customizable Designs: Titanium plates with flow fields can be customized to meet specific electrolyzer requirements, allowing for optimized gas and electrolyte flow patterns tailored to the application.

Titanium plates with flow fields are essential components used in electrolyzers for various industrial applications. These plates, made from corrosion-resistant titanium materials, are designed with intricate flow field patterns to optimize the electrochemical process of water electrolysis. Electrolyzers equipped with titanium plates and flow fields play a crucial role in industries such as hydrogen production, water treatment, and chemical processing. Specifications: Material: Titanium (Grade 2 or Grade 5) Plate Thickness: 0.5-30 mm Flow Field Pattern: Serpentine, Interdigitated, or Customizable Dimensions: 90*90mm Customizable Features Enhanced Mass Transfer: The flow field pattern on titanium plates promotes efficient mass transfer of gases and electrolytes, ensuring uniform distribution and maximizing the electrochemical reaction efficiency. Improved Current Distribution: The optimized flow field design helps achieve uniform current distribution across the electrode surface, minimizing localized effects and improving electrolyzer performance. Extended Lifespan: Titanium's corrosion resistance and durability contribute to the longevity of electrolyzers, reducing maintenance costs and downtime. Customizable Designs: Titanium plates with flow fields can be customized to meet specific electrolyzer requirements, allowing for optimized gas and electrolyte flow patterns tailored to the application. Applications Hydrogen Generation: Electrolyzers equipped with titanium plates and flow fields are extensively used in industries involved in hydrogen production, enabling the production of clean and sustainable hydrogen gas for fuel cell applications, energy storage, and industrial processes. Chlor-Alkali Industry: Titanium plates find applications in the chlor-alkali industry, where electrolysis is employed to produce chlorine, caustic soda (sodium hydroxide), and hydrogen. The plates' resistance to highly corrosive electrolytes and durability make them suitable for this demanding application. Desalination: Titanium plates with flow fields are utilized in electrochemical desalination processes, where they play a vital role in the removal of salt and other impurities from seawater, making it suitable for drinking water or industrial use. Electrosynthesis: Titanium plates are used in electrosynthesis applications, where electrochemical reactions are employed to synthesize various chemicals and pharmaceutical intermediates. The flow field design on the plates helps facilitate efficient mass transfer and uniform current distribution, enabling controlled and precise electrochemical reactions.

The production of PTL (porous titanium sintered plate) is a key component in the manufacture of hydrogen production electrolyzers. PTL is a type of electrode material that is used to catalyze the reaction that produces hydrogen gas from water. The parameters of PTL (porous titanium sintered plate) used in hydrogen production electrolyzers can vary depending on the specific application and design of the electrolyzer. However, some common parameters for PTL porous titanium sintered plates used in hydrogen production electrolyzers include: 1.Porosity: The porosity of the PTL porous titanium sintered plate is an important parameter that determines the surface area available for the hydrogen production reaction. Typically, PTL plates have a porosity of around 30-50%, which provides a large surface area for efficient hydrogen production. 2.Pore size: The size of the pores in the PTL plate can also affect the efficiency of the hydrogen production reaction. Generally, PTL plates have pore sizes ranging from 1um to 100um, depending on the specific application. 3.Thickness: The thickness of the PTL plate can vary depending on the design of the hydrogen production electrolyzer. TopTiTech can customized the thickness from 1mm to 3mm. 4.Catalyst loading: The amount and type of catalyst material used to coat the PTL plate can also affect the efficiency of the hydrogen production reaction. Typically, platinum or iridium catalysts are used, with loading levels ranging from a few micrograms per square centimeter to several milligrams per square centimeter.

Foil Thickness: 0.05-0.5 mm; Width:300-500 mm, Sheet Thickness: 0.6-30 mm; width:1500-2000 mm. Grade 1, 2, 4, 5, and 7. Submit LOI / RFQ along with KYC/CIS. one full service of the shipments, we are available provide FOB, CIF, DDU and DAP.

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Sintered Titanium Frit well suited for use in Electrolyzers. These frits have a smooth, porous surface (80 micron filter rating) that gives good support for membranes. A much finer surface than our Expanded Titanium Mesh, this product is recommended to be placed against the membrane when designing higher pressure electrolyzers ( 20 psi). Custom sizes are available upon request. Titanium Foam Frit Specifications: Raw Material: Titanium Filter Rating: 80 Micron Thickness: 1.5 mm Working Temperature: 300 C Membrane Filtration Corrosion resistance Why not use a Carbon based Gas Diffusion Layer in an Electrolyzer Carbon based GDL materials will be consumed and converted into CO2 gas in the presence of the Oxygen ions and Voltage found on the Anode (Oxygen) side of the electrolyzer. This secondary reaction of oxidizing the Carbon in the GDL will give temporarily lower electrolysis voltage, but this is a short lived phenomenon. The carbon GDL is quickly consumed, resulting in poor compression in the stack, and thus high resistance and lower performance. You can still used carbon cloth or carbon paper material on the Hydrogen side (cathode) since there is oxygen on that side that will oxidize the GDL material.

TOPTITECH's 0.25mm Titanium Sheet enables seamless and efficient transport of reactants within the electrolysis cell. By acting as a PTL, it facilitates the smooth flow of water to the catalyst layers, ensuring effective electron conduction and removing generated oxygen gas. This promotes enhanced utilization of the catalyst layers, resulting in improved overall electrolysis efficiency and hydrogen production. Specifications Material: GR1 titanium powder Pore size/Filtration grade: 20um Size:100x100mm Thickness: 0.25mm Porosity: 40%-50% Technique: Sintering Features Enhanced Catalyst Layer Utilization Excellent Transport Properties Precise Thickness and Durability Seamless Integration and Compatibility Sustainable and Eco-Friendly The role of 0.25mm Titanium Sheet as PTL The 0.25mm Titanium Sheet plays a critical role as a Porous Transport Layer (PTL) within water electrolyzers, unlocking enhanced performance and efficiency in the electrolysis process. Efficient Reactant Transport Enhanced Gas Removal Effective Electron Conduction Structural Support and Stability Scalability and Compatibility

Ultra-thin 0.6mm titanium porous transfer layer for hydrogen has a wide range of applications in hydrogen industry. In the hydrogen industry, these plates are used for hydrogen purification and separation, and they are an important component in many hydrogen-based technologies. Ultra-thin 0.6mm titanium porous transfer layer for hydrogen has good electrical conductivity, gas permeability, liquid permeability and chemical stability. In electrochemical systems such as fuel cells, the application of porous titanium plates can improve the energy conversion efficiency and stability of electrochemical systems, thereby promoting the development and application of electrochemical systems. Parameters Material: Gr1 titanium powder Purity: 99.6% Thickness:0.6mm Size: customized Application: PTL GDL in PEM electrolyzer Porosity: 35% Pore size: 20um Features High conductivity: Titanium is a good conductive material, and the porous titanium plate has excellent conductivity and can effectively transport electrons. High gas permeability: The porous titanium plate can control the parameters such as pore size and porosity to make it have high gas permeability, so that it can effectively transmit gases such as hydrogen and oxygen. Good liquid permeability: The pore structure of the porous titanium plate can control the transmission of liquid, so that it has high liquid permeability. High chemical stability: Titanium has good chemical stability and can operate stably for a long time in acidic or alkaline environments. Applications Hydrogen energy industry Gas filtration Oil and liquid filters Muffler Fuel Industry Catalyst filtration