Facilities Engineering Courses

This course covers the Commissioning and Start Up (CSU) procedures and processes used for Surface Facilities. It is focused on the interaction of the CSU team with the rest of the stakeholders in the project as the work is performed.

This training program on Advanced Maintenance Planning, and Scheduling is designed to cater to the needs of mechanical, electrical, operations and instruments personnel involved in Maintenance Planning, Organizing, Directing, Staffing, Coordinating and Budgeting of maintenance activities related to any type of Process / Refinery organization.

The course will introduce participants to a wide range of rotating equipment, pumps, turbines, compressors and associated equipment. The course will be supported by 3D Simulated Software programs which explains every detail. Each session will be followed by a number of self-assessment questions, answers will eventually be provided.

This course will provide an in-depth learning for Centrifugal pumps. Alongside the very comprehensive notes in the manual which will be supported by extensive deck of power-Point Presentations and a simulation video of Centrifugal pump including the major components, such as Mechanical and Dry Gas Seals, Bearings. The importance of Condition Based Maintenance will also be discussed in length and again using a simulation video. Each of these subjects will be concluded by a number Self-Assessment Questions.

This course is designed to introduce operations and maintenance personnel to the routine maintenance procedures of the turbine support systems required to attain high levels of availability and reliability from the gas turbine. Operating and maintenance personnel should attend this course together to develop a working relationship regarding the routine maintenance requirements of the unit. The course will cover the mechanical maintenance of Gas Turbines by highlighting characteristic features, efficiencies, reliability and maintenance implications.

This course will help to build a foundation for those wishing to Qualify as a Certified Reliability Engineer. Reliability Engineering has always been the fundamental core in ensuring sustainable production/process and output of all equipment within the Oil & Gas, Petrochemical, Power Plant, Fertilizer Manufacturing and Mining. Reliability Engineering and Asset Management are being held increasingly responsible for the impact on their business revenues and cost savings. This 5-day course Principles of Reliability Engineering training ensures your assets are effectively maintained to increase reliability maximise availability and ultimately contribute to your company’s profit margin.

This training program on Maintenance Planning, and Co-ordination & Scheduling is designed to cater to the needs of mechanical, electrical, operations and instruments personnel involved in maintenance activities such as Planning, Organizing, Directing, Staffing, Coordinating and Budgeting of maintenance activities related to any type of production organization.

It is no secret that Reciprocating compressors generate vibrations caused by pulsation induced force mechanical (unbalanced). Compressor frame vibration. Vibration measured at the frame results principally from the response of the mechanical systems to the forces and movements that are occurring in the machine at the normal running conditions. There are a number of factors which will be explained, such as Gas Load Force, Inertial Load Force, Reciprocating & Rotating masses unbalanced forces and Gas Unbalance Forces.

This course provides participants with fundamental laboratory techniques used in wastewater analysis. Participants will become familiar with laboratory procedures for the physical, chemical, and biochemical examination of wastewater. It covers the various analytical techniques implemented to determine the organics, inorganics, and radioactive materials. It also covers the toxicity test systems, requirements, evaluation, and their implementation. In addition, the participants will learn to evaluate the data generated by these tests and thereby interpret and draw conclusions about water quality from the results of these tests. The protocols for collecting, preserving, and analyzing water samples will be presented.

This course will set out clearly the importance of Process Safety Management and the essential ingredient of Sustainability, without this input the refinery-Oil& Gas- Petrochemical – Power Plant- Fertilizer Manufacture and Mining will cease to operate as a cleaner and safer process. We also look at the theory and practice of Emotional Intelligence. The Institute of Sustainability were forced into Administration, a group named BRE – Building Research Establishment funded by the UK government stepped in and bought the key assets.

This course provides learning of the essential elements of all analytical tests used to characterize petroleum and petroleum products. It is, of course, critical for testing laboratory personnel to be fully familiar with all the details of the tests they are performing. But it is also important for nonlaboratory personnel to know at least the significance, advantages, and limitations of particular tests used to characterize product quality. It also provides technical knowledge related to the choice of analyses, their implementation and the use of results.

The course is design to provide both theoretical understanding of piping concepts, design considerations, piping supports, stress analysis, process flow diagram, piping and instrumentation diagrams and pipeline as a means of fluid transportation, linked to practical engineering principles, guidelines, codes, and standards in the concept of piping design in process industries including oil and gas, water piping system, utility piping etc. It provides the basic underpinning engineering knowledge and theories, equations and models; through the practical applications using case studies of several piping from the facilitator work experience at each stage of the training, as well as including software modelling and simulation for specific stage of design. This unique combination of theory, videos, case studies and software model training could help engineers to bridge their theory and practice understanding in the design of gas pipelines.

The course is design to provide both theoretical and practical understanding of pipeline systems design and concepts, including design basis considerations, right of way, sizing, design stages, construction, maintenance among many others. The course also covers design standards and codes in the pipeline design as means of oil and gas transportation. The course covers the Conceptual Engineering, Front End, through Detailed Design, as well as Construction stages. It provides the basic underpinning engineering knowledge and theories, equations and models; through the practical applications using case studies of several pipelines from the facilitator work experience at each stage of the training, as well as including software modelling and simulation for specific stage of design. This unique combination of theory, videos, case studies and software model training help engineers to bridge their theory and practice understanding in the design of liquid and gas pipelines.

This 5-day training course is focused on the key design, operability, and life cycle asset integrity management considerations. It presents a professional approach providing access to support tools in Asset Integrity management decision making and shows the principles of asset integrity management for onshore operations, subsea systems, risers and FPSOs and how the use of real-time condition-based monitoring can support strategic initiatives in a more proactive and efficient manner. This covers all Life Cycle phases from front end (FEED) design, construction, to operating and decommissioning assets. The course additionally addresses ageing asset infrastructure, life extension modelling with safety and regulatory guidance and the regional variances on International Marine Regulations being put into practice.

This course is designed to provide theoretical, practical and operational concept of Heat Exchangers and Pressure Vessels, starting with codes and standards, applications, design requirements, selection, optimizations, costing and troubleshooting particularly for E&P operations. The course considers different types of Heat Exchangers such as Shell and Tube, Double Pipe, Multi-tube, Air coolers, as well as Compact and Non-tubular Heat exchangers such as Plate and Frame Heat Exchangers, Plate-fin Heat Exchangers etc. Various modes of heat transfer such as conduction, convection, contractive, radiative were covered. The course has provided full relevance of space requirements in Heat Exchanger design for Flat type. The course also considered Pressure vessels, their classification-based design, pressure and service, as well as variety of design requirements for such vessels including operations and maintenance. The course considers a case studies one of Pinch Analysis concept as part of Heat Integration, its application to Heat Exchange across different industries, benefits, cost saving and design process to meet the target hot and cold utilities objectives. While the second one considers overpressure relief scenario and mitigation design in practical process facility.

This onshore pipeline design course delivers the basic requirements involed in engineering designing onshore pipelines for all relevent industry sector technical and non-technical professionals.

This course is designed for leaders, managers, and engineers involved in oil and gas field projects and operations who want to enhance their understanding of flow and fluid challenges between the sandface and separator, and how to effectively manage them. It emphasizes the interconnection of flow assurance with other engineering disciplines and its impact on critical project and operational decisions. Focusing on wells and multiphase flowlines in oil and gas production from reservoir to separator, the course does not cover single-phase gas or oil export pipelines. Participants should have a basic engineering background and experience. The course builds on fundamental principles to deepen understanding of flow assurance and how to address related issues in oil and gas field development and operations.

This course is intended to provide the fundamental principles and practices for the design and construction of offshore structures. Because of the multidisciplinary nature of the problems involved, the content provides a solid foundation of fundamental principles of structures, fluid and geomechanics, applied to offshore systems design and construction. At the end of each section, the theory covered in the course is explained by means of worked examples and tutorials. The main codes of practice, including API and DNV, are finally introduced and explained by means of worked examples and case studies.

This Subsea engineering course focuses on the Subsea sector as well as deep water issues of oil and gas exploitation. The course addresses the hardware that is used in subsea and issues such as field layout, flow assurance and installation/maintenance.

This short course is designed to give the attendees the fundamentals of natural gas processing and conditioning including details of the major processes.  Typical equipment and facilities will be discussed with regard to their design and operation including hands-on process simulations. The course covers the properties, uses and specifications of natural gas and natural gas liquids including stabilized condensate; LPG and LNG to provide for safe storage and transportation. The design and operation of major Gas Processing Plant components will be covered.  These include equipment from the input to the sales products exiting the plant such as Separators; Compressors; Engines; Gas Turbines; Electric Motors; Pumps; Heat Exchangers; Sour Gas Treatment; Dehydration; Dew Point Control and Liquids Treatment.

Subsea systems are subjected to harsh environmental conditions which make their construction and design challenging. The course initially provides a comprehensive review of geological and geotechnical characterization of the seafloor. Subsequently, the course focuses on the installation and design of subsea systems according to the international standards. Finally the course introduces basic seismic design requirements.

Subsea systems are subjected to harsh environmental conditions which make their construction and design challenging. The course initially introduces the fundamental of offshore soil mechanics and provides a comprehensive review of geological and geotechnical characterization of the seafloor. Subsequently, the course focuses on the installation and design of subsea systems according to the international standards. The fundamentals of soil-structure interaction, and their implications to the design of subsea systems, are finally introduced and discussed.