AR ENTERPRISE

Waghodia Road, Vadodara, Gujarat

AR.Enterprise is provide full mechanical code calculations as per international oil & gas construction codes like ASME/IS/PED. Our output will include thickness checking of each pressure part at different load cases, support & lifting calcualtion under wind & seismic load.

As a notable name of this business sector, we are massively indulged in offering to our patrons API 650 Storage Tank Service. Melior engineers provide detail engineering for tank in strict accordance with the API Standards. We provided custom design, fabrication drawing that meet API standards & customer specific requirement. 


Types of Vessels:

• 1 API 650/IS 803 Storage tank 
• Cylindrical Atmospheric pressure storage tank 
• Rectangular Storage tank 
• Bin/Silo for all industry 

Code/Book Standard:

• API 650 /IS 803/API 620/IS 10987/API 12D 
• Silo/Bin Pressure vessel design manual by Dennis & Moss 
• Rectangle tank - PV Design handbook/ Roark theory 

Pressure vessel and heat exchanger design involves the careful consideration of various factors to ensure safe and efficient operation.

For pressure vessels, determining the maximum allowable working pressure (MAWP) is essential. This involves analyzing the internal and external pressures the vessel will experience and selecting materials that can withstand these pressures. Calculating the appropriate wall thickness is crucial for structural integrity, and considerations such as corrosion resistance and fatigue life must be taken into account. Additionally, closures and supports should be designed to handle the stresses and forces exerted on the vessel.

In heat exchanger design, maximizing heat transfer efficiency while minimizing pressure drop is the main objective. Factors such as heat transfer surface area, flow arrangement, fluid velocities, and material selection play vital roles. The heat load and temperature difference between the fluids determine the required surface area, and selecting the optimal flow arrangement (e.g., parallel or counterflow) affects heat transfer efficiency. Fluid velocities need to be carefully considered to achieve efficient heat transfer without excessive pressure drop. Materials must be chosen to withstand the operating conditions and resist corrosion or fouling.

Both pressure vessels and heat exchangers must comply with industry standards and codes to ensure safety and reliability. Adhering to standards such as the ASME Boiler and Pressure Vessel Code helps in designing, fabricating, and inspecting these equipment.

By considering these factors in pressure vessel and heat exchanger design, engineers can develop designs that meet safety requirements, optimize performance, and ensure the longevity of these crucial industrial components.