Refineries convert crude oil into valuable petroleum products such as gasoline, diesel, kerosene, and lubricants. Engineering in this sector involves process design, piping systems, heat integration, safety systems, and utilities to ensure continuous, efficient, and environmentally compliant operations.
Petrochemical facilities process hydrocarbons into chemical products like ethylene, propylene, methanol, and polymers. These complex plants require integrated design solutions covering process engineering, piping, instrumentation, and control systems to ensure product quality, operational safety, and reliability.
Oil terminals serve as vital hubs for the storage, transfer, and distribution of crude oil and refined products. Engineering services include tank farm design, loading/unloading systems, pipeline routing, fire protection, instrumentation, and automation systems to ensure safe and efficient handling of hydrocarbons.
Water treatment facilities are designed to purify, recycle, or desalinate water for industrial or municipal use. Engineering focuses on process design, pumping systems, chemical dosing, filtration, and automation, ensuring sustainability and compliance with environmental standards.
Wellhead platforms are offshore structures that house the equipment needed to extract oil and gas from beneath the seabed. Design and engineering cover structural integrity, piping layout, safety systems, instrumentation, and corrosion protection to ensure safe offshore operations under harsh marine conditions.
Pharmaceutical plants require precise engineering to maintain cleanliness, temperature, humidity, and contamination control. Design solutions include HVAC systems, cleanroom design, process piping, utilities, and automation — all in compliance with GMP, FDA, and WHO standards.
Processing facilities handle the conversion of raw materials into intermediate or finished products through mechanical, chemical, or thermal operations. Engineering design ensures process optimization, energy efficiency, and safe handling of materials, supported by robust instrumentation and control systems.
Food & Beverage facilities require hygienic design and efficient process flow to ensure product quality and safety. Engineering includes stainless steel piping, CIP (Clean-in-Place) systems, controlled environments, and utility integration, all in compliance with food safety and HACCP standards.
Power plants generate energy from fossil fuels, renewables, or waste heat recovery systems. Engineering focuses on mechanical systems, turbines, boilers, piping networks, electrical distribution, and control systems to ensure reliability, efficiency, and environmental compliance.
Infrastructure projects support industrial and energy operations through the development of utilities, buildings, and support structures. Engineering involves civil, structural, architectural, and MEP systems design — ensuring durability, functionality, and compliance with international standards.
Renewable and green energy facilities focus on harnessing sustainable energy sources such as solar, wind, biomass, hydrogen, and waste-to-energy systems. Engineering in this sector involves the design and integration of energy conversion, power distribution, and storage systems to achieve high efficiency and environmental compliance.
Utility and offsite systems provide the essential supporting infrastructure required for process plants and industrial complexes. These include systems for steam generation, compressed air, cooling water, nitrogen, instrument air, fuel gas, and wastewater treatment.