Muhammad Umer Alyan’s Post

In Brief: What skills are most important to succeed as an instrument engineer in the O&G industry? ✏️ Succeeding as an instrument engineer in the Oil and Gas (O&G) industry requires a combination of technical expertise, problem-solving abilities, and strong communication skills. Here are some key skills: 1- Technical Proficiency: Deep understanding of instrumentation principles, control systems, and various types of sensors and transmitters. 2- Safety Awareness: Awareness of safety standards and protocols is crucial in the O&G industry due to the hazardous nature of the work environment. 3- Troubleshooting Skills: The ability to diagnose and solve instrumentation and control system issues efficiently is vital for minimizing downtime and ensuring the smooth operation of equipment. 4- Project Management: Instrument engineers often work on various projects, from designing new systems to upgrading existing ones. Strong project management skills are necessary to ensure projects are completed on time and within budget. 5- Analytical Thinking: Being able to analyze data and identify trends helps in optimizing processes, improving efficiency, and detecting potential problems before they escalate. 6- Adaptability: The O&G industry is dynamic, with technologies and regulations constantly evolving. Instrument engineers need to stay updated with the latest advancements and adapt to changes quickly. 7- Communication Skills: Effective communication is essential for collaborating with multidisciplinary teams, conveying technical information to non-technical stakeholders, and providing clear instructions to technicians and operators. 8- Regulatory Compliance: Knowledge of industry regulations and standards, is important for ensuring compliance and maintaining operational integrity. 9- Environmental Awareness: Understanding environmental regulations and their impact on instrumentation design and operation is becoming increasingly important in the O&G industry. 10- Teamwork: Instrument engineers often work as part of a team comprising engineers, technicians, and operators. Collaborative skills are essential for achieving common goals and resolving issues effectively. By continually honing these skills and staying abreast of industry developments, instrument engineers can thrive in the dynamic and challenging environment of the O&G industry. Amgad.

Hi Connections, Hope you are doing well!! We are hiring for Commissioning Engineer– Fridley, Minnesota – Onsite—Full-Time ---Work Authorization: OPT/ CPT/ GC/ TN/ USC.-----Industry-Oil & Gas. If you or someone you know is interested in this opportunity, please share an updated resume at shahabuddin@dbsiservices.com or you can reach out to me at 908-373-8681. Job Title: Commissioning Engineer Location: Fridley, Minnesota Work Authorization: OPT/ CPT/ GC/ TN/ USC Job Description: Responsibilities: ·Plan and execute the commissioning of hydrogen electrolyze equipment at customer sites within the schedule and budget. ·Perform site acceptance test (SAT) for final handover/acceptance by customers. ·Supervise installation and construction activities at customer sites. Manage subcontractors on location. ·Conduct site surveys in support of proposals, site selection and site requirements definition. ·Conduct inhouse testing of our manufactured equipment in local test facility. ·Resolve installation issues, procedures, and methods by working with management, engineering, quality control and contractors. ·Promote efficient flow of information and ensure complete and proper record keeping of commissioned equipment. Requirements: ·BE Mechanical/ BE Instrumentation (Electromechanics). ·Working experiences on SCADA/PLC/VFDs/ Process Plant automation/Utilities/ Industrial Networks/ Gas systems backgrounds together with the availability to travel are the expectations and skill sets we have in mind. ·Good instrumentation and controlled experiences. ·Hands on, practical engineering experience –including the ability to interpret schematic diagrams and technical specification documents. ·Demonstrate a tenacious personality and the ability to manage a high volume of customer needs at any time. ·Previous EPC, Oil & Gas experience is considered an asset. ·System Requirement Engineering. ·Project Management. ·Technical Documentation. ·Manages Complexity

Instrumentation is an interesting subject and most aspiring instrumentation engineers needs to understand the basic field instruments used in the oil and gas industry. in subsequent videos I shall be discussing each of the field instruments mentioned in this video in details, types, application, selection considerations, troubleshooting, manufacturers etc.

From control systems to power distribution, these electrical and instrumentation engineers ensure efficient and safe operations in oil and gas. #oilandgas #instrumentation #electricalengineering #safetyfirst

It's an honor to have a well-experienced instrumentation engineer from Schneider Electric here. Hello, folks! I'd love to share some insights I've gained from my boss. I believe this will be beneficial for young instrumentation engineers, especially those in or aspiring to join the oil and gas industry. To be a reliable and professional engineer, you need to understand the theoretical, technical, and fundamental aspects of instrumentation. This includes being knowledgeable about field devices, electrical and pneumatic piping, wiring, and termination. Additionally, a thorough understanding of Control Philosophy, Programmable Logic Control (PLC) and Distributed Control System (DCS) is essential. A competent instrument engineer should be capable of programming control logic and emergency shutdown systems. Many of these skills and experiences are acquired through hands-on experience rather than solely in the classroom. I've observed many young engineers who are reluctant to get their hands dirty or venture into the field, relying solely on their certificates to qualify them for any job. However, this approach only hinders learning and can result in unreliable engineering practices. I've learned that the best way to become an expert instrument engineer is to first grasp the fundamentals of all field devices and their operational principles, which makes understanding PLC and DCS systems much easier. I consider myself fortunate to be in the world's largest single-train refinery (Dangote Petroleum Refinery and Petrochemicals), equipped with modern cutting-edge technology for control and instrumentation. It's an unparalleled learning opportunity for me here. #instrumentationandcontrol #DCS #DPRP #dangote #schneiderelectric #oilandgasindustry

#Camputech# #Instrumentation # # Knowledge Transfer# #Automation# #Process Plant Operation Series# Instrumentation – Measure, Monitor and Control We can start Instrumentation Knowledge Transfer from the Process Plant/Industry basis. Because Most Core Instrumentation Carriers will connect withProcess Plants/Industry. Design Engineer in EPC, Construction Engineer, Commissioning Engineer, Consultants, Control System Engineers, Maintenance Engineers, Instrument Product Vendors, Service Engineers and So on. In this series, we shall Explore Basic Process Plant Operations and its Functions.. Departments in Process Plant Industries and it's Major Functions – Coming up.

One component of oil and gas facilities engineering design is instrumentation, process control, and automation systems design. Personnel who work in this field possess sound technical and practical knowledge and experience the selection. sizing and aspects of instrument design. To build more capacity in this field and in the industry at large , our team of experts have developed a course outline that provides an overview and practical approach to instrumentation, control, and automation design principles. This course is designed for those who want to learn about the IC&A field from a practical point of view and/or for those who simply want to communicate technically with IC&A personnel. It is designed to provide attendees with sufficient knowledge to move into the field of IC&A. It is applicable to technical and supervisory personnel. It is presumed that participants come from or aspiring to be in a setting or where they can apply the knowledge received. The focus is on application and integration into the process and control of upstream and midstream oil and gas facilities. The course goes beyond theory. It captured what you need to know in order to develop practical knowledge of selection, installation and commissioning of industrial instrumentation and control systems, understand the designers reasoning, and comply with industry regulations with regard to new systems. The course is taught using a combination of teaching strategies, facilitated discussions, and hands-on exercises using “real world” project examples related to facilities design. The exercises include activities that will provide each participant with a visual application of the principles and practices discussed throughout the course.

What are the main phases of Instrumentation and Control project in Oil and Gas EPC ? ✅Instrumentation and Control (I&C) plays a vital role in Oil and Gas Design and Engineering. An I&C project typically follows these main phases: 🔹Basic Engineering: This initial phase defines the overall process requirements and identifies the key parameters that need to be monitored and controlled. Engineers will specify the types of instruments needed (pressure gauges, flow meters etc.) and their locations. 🔹Detailed Engineering: Here, the specifics of the I&C system are designed. Engineers will develop Instrument Datasheets (specifying each instrument's function and technical details), Loop Diagrams (illustrating signal flow between instruments and control systems), and Cable Routing Layouts. 🔹Procurement: Based on the detailed engineering documents, the required instruments, control systems, and other equipment are procured from vendors. 🔹Construction and Installation: During this phase, the I&C equipment is installed in the field according to the design documents. This involves physical installation of instruments, control panels, and cabling. 🔹Pre-commissioning and Commissioning: Before operational startup, the I&C system undergoes rigorous testing. This ensures all instruments are functioning correctly, control loops are properly tuned, and the entire system operates as designed to meet safety and process requirements. 🔹Operation and Maintenance: Once operational, the I&C system requires ongoing monitoring, maintenance, and calibration to ensure continued safe and efficient operation. Important 🔔: Technical and Safety departments continue to provide ongoing training. It's essential for our technical staff to remain well-informed and updated on all systems in place. Additionally, they must maintain vigilant attention to safety procedures, adhering strictly to our rules and policies. 🔹#ICSSengineer #DCSengineer #InstrumentationAndControlEngineer  🔹#OilAndGas #MiddleEast 🔹#ICSSengineer🔔 🎯 🔹#DCSengineer🔔 🎯 🔹#InstrumentAndControlEngineer🔔 🎯 🔹#EngineeringandDesign #Commissioning, #TechnicalSuppport, #ProjectEngineer🔔 🎯

challenges before commissioning engineer Instrumentation Instrumentation engineers face several challenges during the commissioning phase of projects. Here are some of the key challenges: 1. **Documentation and Record-Keeping**: Ensuring that all relevant documentation such as P&IDs, wiring diagrams, loop diagrams, and device datasheets are available, accurate, and updated is critical. Proper documentation is essential for effective troubleshooting and future maintenance. 2. **Physical and Visual Inspections**: This involves verifying the correct installation of instruments, ensuring proper alignment, secure connections, and checking for any physical damage or loose fittings. Physical inspections are crucial to prevent operational issues later. 3. **Wiring and Connections**: Checking all wiring and connections for correctness and firmness according to schematics and loop diagrams is necessary to avoid malfunctions. Any discrepancies in wiring can lead to signal loss or incorrect readings. 4. **Power Supply Verification**: Confirming that each instrument has a stable and correct power supply, including checking voltage levels and power source continuity, is essential to ensure reliable operation. 5. **Configuration and Calibration**: Instruments must be configured correctly, including setting appropriate ranges, alarms, and control actions. Calibration ensures that instruments are reading accurately, and this typically involves using known standards for comparisons. 6. **Functional and Performance Testing**: Functional tests involve verifying that each instrument operates as intended under normal and contingency conditions. Performance testing assesses systems under simulated operating conditions to ensure they meet performance specifications. 7. **Communication and Signal Verification**: Ensuring proper communication between instruments and control systems, and verifying that signals (analog or digital) are transmitted correctly, is vital for system integration and performance. 8. **Troubleshooting and Issue Resolution**: Engineers often encounter unexpected issues such as software bugs in PLC or SCADA systems, which require on-the-spot troubleshooting and problem-solving to ensure systems function correctly. 9. **Safety and Compliance**: Ensuring that all systems comply with safety standards and regulations, including performing safety tests and checks, is crucial to protect all instruments and plant personal from fire explosions and accidents. 10. **Integration Testing**: This involves verifying the interaction and coordination between different systems to ensure they work together seamlessly. Integration testing can reveal interface issues that need to be addressed before full operation of the plant or unit shall be established. Source:instrumentation engineer community

Comprehensive Guide to Instrumentation Loop Testing: General Purpose. Introduction: Instrumentation Loop Testing plays a vital role in ensuring the optimal performance and safety of control loops within industrial facilities. This guide offers a detailed overview of the purpose, scope, methodologies, and documentation requirements involved in loop checking. Purpose and Scope: The primary objective of Instrumentation Loop Testing is to verify the operational functionality of control loops installed by contractors. This encompasses adherence to design specifications, industry standards, and manufacturer tolerances. Additionally, the process aims to streamline costs, time, and maintain safety integrity throughout operations. Overview: Instrumentation Loop Testing entails the meticulous verification of both digital and analog instruments and controllers deployed across various sections of industrial plants. This includes rigorous testing of field devices, process interface equipment, and control room consoles utilizing advanced systems such as Distributed Control Systems (DCS), Emergency Shutdown Systems (ESD), and Fire and Gas Systems (FGS). Key Components: Open Loop Control System: Characterized by the absence of feedback mechanisms. Closed Loop Control System: Incorporates feedback elements, including input devices (e.g., transmitters), output devices (e.g., control valves), and controllers (e.g., DCS, PLC). Responsibility Matrix: A structured responsibility matrix ensures clear delineation of roles within the loop check team, thereby minimizing redundancy and optimizing efficiency during testing procedures. General Requirements: Completion of construction punch list items. Successful completion of Factory Acceptance Tests (FAT) for control systems. Calibration and testing of instruments in accordance with specified criteria. Comprehensive documentation of all relevant drawings and records. Test Equipment and Tools: Essential tools and equipment include digital multimeters, standard source instruments, calibrators, and other relevant tools, all of which must be calibrated and operating within specified accuracy thresholds. Safety Precautions: Emphasis is placed on strict adherence to safety protocols, including the correct usage of Personal Protective Equipment (PPE), cautious handling of instrument terminal boxes, and adherence to safety measures in elevated areas. Communication Requirements: Effective communication channels must be established, ensuring seamless coordination among commissioning crews during pre-commissioning activities. Documentation: Piping and Instrument Diagrams (P&ID). Instrumentation loop testing check reports. Calibration records. Installation inspection records. Procedure: Comprehensive procedures are outlined for testing various types of loops, covering aspects such as wiring verification, power requirements, cable termination, and signal simulation for analog and digital systems.