ASPROFOS’ approach includes the progressive determination of a project in order to generate business cases and define the scope of the project. ASPROFOS' role is to find appropriate solutions based on the demands of the customers. Simulation, technology investigation and feasibilities studies are some of the “tools” for proper selection, taking, at the same time, into consideration financial and environmental aspects.
ASPROFOS’ Technical Support ensures smooth progress and problem solving.
Given that FEED phase is the most critical time for controlling costs, optimizing the design and confirming the project implementation strategy, ASPROFOS’ expertise succeeds in minimizing delays, reducing risk and lowering costs.
Finally, ASPROFOS, during process design, examines technology selection, estimates plant and production performance, equipment datasheets, heat, utility and effluent balances, process and instrumentation flow diagrams, line lists and so on.
Detailed engineering means determining every aspect of a project development in detail.
Engineers at ASPROFOS are experienced specialists in their respective fields of expertise and capable of providing top-class engineering services using state-of-the-art engineering tools.
The multi-disciplinary team of engineers work together every day to develop comprehensive solutions to meet customer objectives.
ASPROFOS offers a variety of engineering knowledge under one roof (one-stop-shop).
In response to the growing need for safety engineering problem solvers, ASPROFOS occupies a group of safety engineering professionals, whose goal is to address a broad range of safety issues, concerning:
with informed, innovative, and economical solutions.
Considering project safety already at the first stage of the design phase, ASPROFOS has performed numerous safety studies, especially for refinery units of high complexity and risk. The company offers engineering services, leveraging the most recent developments in fire protection design technology and delivers a uniquely comprehensive approach to fire protection design.