Research & Development

The R&D department’s continuous involvement with valve & wellhead technology has resulted in the development of reliable analytical models, design improvements, and innovative solutions to persistent valve/actuator and Wellhead problems that have defied the industry for decades. Our expertise spans from the conceptual stage through detail design, analysis, prototype development, testing, manufacturing; troubleshooting.

Performance verification testing is routinely performed on new and existing equipment, including cold room testing at -46 ºC  and high temp to 180 ºC  and also doing fire-safe testing to ensure quality performance in the field..

Using our 3D printers, a CAD/CAM system and engineering softwares such as SolidWorks, Abaqus, ANSYS is utilized in engineering to aid in the creation and modification of designs.

Our in-house engineers address customer requirements with regard to alloys, welding, heat treatment, and material applications. New material is developed for specific operational conditions where severe applications are encountered.

Our products have been engineered to meet tomorrows expectations in order to achieve maximum efficiency, safety and reliability, implementing all of the latest industry requirements and regulations in our current engineering.

Our R&D Department is working daily to study technological innovation dedicated to develop our products, creating new ones and improving production processes and continual research into new technology allows us to be ideally suited to offer clients specifically and customized products as well as a standard product range.

Our continuous involvement with valve & Wellhead technology has resulted in the development of reliable analytical models, design improvements, and innovative solutions to persistent valve/actuator and Wellhead problems that have defied the industry for decades. Our expertise spans from the conceptual stage through detail design, analysis, prototype development, testing, manufacturing; troubleshooting; and root cause analysis of Valve, Actuator and Wellhead problems. 

Behsazan Jonoob can help you identify problems in your operation regarding Valves, Actuators and Wellhead and form a solution. We often are asked to calculate whether a valve is up to its task. One way we perform this is through computational fluid dynamics.

Computational Fluid Dynamics (C.F.D.)
Understanding the fluid dynamics and thermo-control is essential to properly design products for which these phenomena play a roll of importance. The term C.F.D. covers calculations in the field of fluid dynamics, which are based on numerical methods. Often the so called finite element method is adopted. This means that volume, where the studied flow occurs, is modelled by dividing it into elements in order to determine its behaviour. The flow may take place either through an enclosed envelope or within a body. Examples of results are:

• Pressure distribution

• Velocity distribution

• Temperature distribution

• Graphical display of stream lines

• By means of this software, both two- and three-dimensional models can be studied.

The possibilities stretch out to:

• Laminar or turbulent circulation

• Supersonic, Transonic and Subsonic (compressible) flow

• Stationary or non stationary flow

• Heat transfer through conduction, convection, or combined

• These results can be used in a finite element analysis to compute thermal stresses in combination with other mechanical loads.