PROCESS PLANT DESIGN
Texvyn's process plant design program consists of specialization and super-specialization level training based on current market demand. The program is designed to strengthen your basic industry-required technical skills through hands-on application. We then build your core capabilities through a combination of theory, practice sessions and live industrial case studies. The program includes industry-relevant certifications for all our below program.
PROCESS DESIGN ENGINEERING & SIMULATION
Chemical Process Plants such as refineries, pharmaceutical, power and petrochemical plants are very complex in term of equipment, pipeline, instrumentation, electrical, controls and power systems. Process Engineers are responsible for the design, construction, maintenance and improvement of large equipment and facilities involve in such process plants.
ADVANCE PROCESS SIMULATION - STEADY & DYNAMICS
The role of process simulation has evolved significantly over the past 20 years. Process simulation has an important role to drive efficiency and reduce costs, especially now that models can make a significant impact beyond the traditional focus of process design.
MECHANICAL DESIGN OF PROCESS EQUIPMENTS
Static equipment's plays a major role in process plant industry. Mechanical Engineers are typically involved with the design and developing procedures for maintenance of mechanical and rotating equipment and machines. Mechanical Engineers support the plant equipment both onshore and offshore to ensure that it remains efficient and productive. Common static equipment’s used in the Oil and Gas industries are Pressure Vessels, Heat exchangers, Storage tanks & Distillation columns.
PIPING DESIGN ENGINEERING
Piping engineering is an emerging engineering science, although it has been there for years.A piping system is crucial to any process plant; hence it needs to be designed with precision and care. The efficiency of a plant highly depends on its ability to transport fluid through the pipes to various equipment that function collectively.
INSTRUMENTATION & CONTROL ENGINEERING
Measurement and control is the brain and nervous system of any modern plant. Measurement and control systems monitor and regulate processes that otherwise would be difficult to operate efficiently and safely while meeting the requirements for high quality and low cost.
ELECTRICAL DESIGN ENGINEERING
Industrial Electrical Power Systems need a good design. A proper functioning of electric power distribution system is vital for safety, maintenance, trouble shooting and the efficient operation of industrial plant. The power distribution system includes high voltage circuit breakers, main transformers, medium voltage switchgear, distribution transformers, motor control centers etc.
HVAC DESIGN ENGINEERING
HVAC system design is a subdiscipline of mechanical engineering, based on the principles of thermodynamics, fluid mechanics, and heat transfer.HVAC is important in the design of medium to large industrial and office buildings such as skyscrapers, onboard vessels etc. where safe and healthy building conditions are regulated with respect to temperature and humidity, using fresh air from outdoors.
STRUCTURAL DESIGN ENGINEERING
Structural engineering is the field of engineering deals with the study, analysis and design of structures. These structures are generally required for construction. But this is not only applicable in the field of civil engineering; in fact this field of engineering has a wide range of applications in machinery, vehicle, medical equipment, parking lots etc. One of the major aspects of this field is analysis based on safety requirements.