53 Project Engineer courses

Enhance your expertise in HV/MV power system design and protection coordination with EnergyEdge's virtual instructor-led training. Join now!

Enhance your expertise in HV/MV power system design and protection coordination with EnergyEdge's virtual instructor-led training. Join now!

This comprehensive Solidity course is designed for individuals seeking to expand their understanding of Ethereum, blockchain, and smart contract development. Whether you are an aspiring blockchain developer or an Ethereum enthusiast, this course covers all the essential topics including Solidity programming, DApp development, cryptocurrency, and more.

Unlocking Project Communication using NLP to deliver added value to your current projects. Apply the NLP Communication Model can get behind the 'miscommunications' encountered on a daily basis.

Elevate your understanding of relay protection in power systems with EnergyEdge's specialized classroom training course and gain valuable insights.

The purpose of this course is to describe the principles and procedures of Hazard and Operability (HAZOP) Studies. HAZOP is a structured and systematic technique for examining a defined system, with the objective of: Identifying potential hazards in the system. The hazards involved may include both those essentially relevant only to the immediate area of the system and those with a much wider sphere of influence, e.g. some environmental hazards; Identifying potential operability problems with the system and in particular identifying causes of operational disturbances and production deviations likely to lead to nonconforming products. An important benefit of HAZOP studies is that the resulting knowledge, obtained by identifying potential hazards and operability problems in a structured and systematic manner, is of great assistance in determining appropriate remedial measures. The course is designed using the tools and techniques identified by IEC 61882:2016. LEARNING OUTCOMES By the end of this course you will understand how to: prepare for a HAZOP study meeting and programme – including defining the scope of the study and choosing the team choose nodes (parts of the drawings or operation for HAZOP study) estimate the programme requirements for the successful completion of a study use facilitation techniques to motivate the team and keep them on task avoid common problems encountered during study meetings, including challenging behaviours formulate the HAZOP study report fulfil the team leader’s role in implementing recommendations and managing the process FOR WHOM Anyone with experience of the HAZOP technique who is required to lead HAZOP studies Process safety engineers, loss prevention specialists, production engineers, process design engineers, project engineers, process programmers and instrument control engineers Risk Managers COURSE CONTENT Introduction to HAZOPWhat is a HAZOP?What are Hazards and Risk?Limitations of HAZOPsEssential Features of HAZOP Principles of examination Design representation Design requirements and design intent Applications of HAZOP Relation to other analysis toolsFailure Mode Effect AnalysisAs Low As Reasonably Practicable (ALARP)Fail Tree AnalysisEvent Tree Analysis HAZOP study limitations Risk identification studies during different system life cycle stagesConcept stageDevelopment stageRealization stageUtilization stageEnhancement stageRetirement stage The HAZOP study procedure Initiate the study Define scope and objectives Define roles and responsibilities Preparation Plan the study Collect data and documentation Establish guide words and deviations Examination Structure the examination Guidewords and Deviations Causes, Consequences and Safeguards Perform the examination Risk Ranking Documentation and follow up Establish method of recording Output of the study Record information Sign off the documentation Follow-up and responsibilities Case Study and practical application TRAINING METHODOLOGIES Presentation Case Study Individual Exercises Group Exercises DURATION: 4 Days (Examination on day 4)

Structural Engineer Wimbledon are a popular way to add valuable living space to a home without expanding its footprint. A structural engineer is essential in this process, assessing the existing roof structure and designing any necessary reinforcements to support the new load. The engineer ensures that the loft conversion is safe and complies with building regulations, addressing potential issues such as floor load capacity and roof stability. By involving a structural engineer, homeowners in Kingston can confidently transform their unused attic space into a functional and safe area, enhancing both the utility and value of their property. This process not only maximizes space but also adds a modern touch to homes, making them more appealing and efficient.

Earn 35 KwikSkill PDUs or contact hours toward your Project Management education for certification with PMI®. Become PMP® certified today!

Embark on a comprehensive journey through the intricacies of Project Management. From PMBOK guidelines to effective planning, quality control, and risk management, this course offers the tools and insights needed to excel in managing complex projects in any industry.

Gain expertise in process safety management engineering through EnergyEdge's course. Participate in our classroom training to enhance your skills and knowledge.