216 Environmental courses in Cardiff delivered Live Online

Course Information This course aims to empower you with the expertise to proficiently navigate process mapping and master the art of crafting Standard Operating Procedures (SOPs) within regulated environments. Whether you're engaged in activities that demand process improvement, continual enhancement, or SOP creation, this course offers invaluable insights tailored to your needs. It caters to individuals tasked with managing, documenting, and implementing processes and SOPs, irrespective of prior experience or skills. Our curriculum does not focus on specific software or approaches, focusing instead on fundamental principles and adaptable concepts applicable across diverse organisational landscapes. Benefits include: Hands-on experience in mapping processes An understanding of how process maps can be used to define, communicate and continually improve complex processes An understanding of best practice for SOPs using of process maps/process flow diagrams and process mind maps to complement text An insight into the preparation of concise and user friendly SOPs. This course is structured to encourage delegates to:  Discuss and develop ideas Develop a practical approach for creating process maps and writing SOPs Understand how to use process maps in SOPs effectively Discuss how process mapping for preparing SOPs can be applied to process improvement for SOPs. Is this course for you? The course is designed for all those with responsibility for managing, documenting and implementing processes and SOPs. It assumes no prior experience or skills. The course does not recommend any specific software or approach, but explores the principles and ideas that can be applied in any organisation. What will you learn? Hands-on experience in mapping processes An understanding of how process maps can be used to define, communicate and continually improve complex processes An understanding of best practice for SOPs using of process maps/process flow diagrams and process mind maps to complement text An insight into the preparation of concise and user friendly SOPs. By the end of the course you will be able to: Create process maps and write clearer more concise SOPs Understand how to use process maps in SOPs effectively Understand how process mapping can be applied to process improvement and better SOPs. Tutors Tutors will be comprised of (click the photos for biographies): Laura Brown Director, Laura Brown Training and Development David Butler VP of Quality, Resolian Programme Please note timings may be subject to alteration. Day 1 09:00 Welcome, Introductions and Course Objectives Why Companies manage by process. 10:00 Exercise 1 - First Steps Mechanisms for process mapping, levels at which it can be applied, and the roles and responsibilities of process owners. 10:30 Exercise 1 - Feedback 10:45 Break 11:00 Mapping Processes The stages involved in mapping processes including how to construct a SIPOC chart. 11:45 Exercise 2 - Mapping A Process A first opportunity to practice your new process mapping skills. 12:30 Exercise 2 - Feedback 13:00 Lunch 14:00 Exercise 3 - Discussion of Options for Format, Structure and Layout What Makes A Good SOP? Discussion of options for format, structure, level of detail of SOPs and the use of process maps for SOP writing. A case study example of a good SOP which uses a flow chart/process map. 14:45 Exercise 3 - Feedback 15:00 Break 15:15 A Case Study example of a good SOP that uses a flow chart / process map 15:30 Exercise 4 Discussion of the content of an SOP using a Process Map 15:35 Exercise 4 - Feedback 15:45 Key Writing Considerations 16:15 Exercise 5 16:45 Exercise 5 - Feedback 17:00 Close of Day Day 2 09:00 Review of Day 1 09:15 Using Metrics Selecting and using metrics to monitor and improve processes. 10:00 Exercise 6 - Practice in Process Mapping Creating Process Maps from multi-source information. 11:00 Break 11:15 Exercise 6 - Feedback 11:45 Common Pitfalls Common problems and tips for good Process Mapping. 12:15 Demonstration of Process Mapping on a PC 12:45 Lunch 13:30 Exercise 7 - Mind Mapping 14:30 Exercise 7 - Feedback 15:00 Break 15:15 Exercise 8 - Using Process Maps to Write an SOP Applying your process mapping skills as part of writing an SOP 15:30 Exercise 8 - Feedback 15:45 Course Review and Follow-up 16:00 Close of Course Extra Information Face-to-face course Course Material Course material will be available in PDF format for delegates attending this course. The advantages of this include: Ability for delegates to keep material on a mobile device Ability to review material at any time pre and post course Environmental benefits – less paper being used per course. The material will be emailed in advance of the course and RQA will not be providing any printed copies of the course notes during the training itself. Delegates wishing to have a hard copy of the notes should print these in advance to bring with them. Alternatively delegates are welcome to bring along their own portable devices to view the material during the training sessions. Remote course Course Material This course will be run completely online. You will receive an email with a link to our online system, which will house your licensed course materials and access to the remote event. Please note this course will run in UK timezone. The advantages of this include: Ability for delegates to keep material on a mobile device Ability to review material at any time pre and post course Environmental benefits – less paper being used per course Access to an online course group to enhance networking. You will need a stable internet connection, a microphone and a webcam. Development Level Learn

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)

About this training course This 5-days comprehensive training not only an introduction into the issue associated with the development of oil and gas fields but also provides an in depth understanding of the issues to be considered in the development of these fields. The theme throughout this training course is Flow Assurance and Innovative Technologies. Each day consists of lectures in the morning and a hands-on workshop in the afternoon. The workshop allows the participants to appreciate the design process associated with field developments. Various software will be available during the workshop to predict Multiphase flows through wells, pipelines and risers, as well as evaluating reservoir production profiles using alternative technologies to develop reservoirs. Further software to assess Surge and environmental safety will also be available. The field design approach will consider an integrated solution through modelling the reservoir decline, wells, flowlines, risers and the host facility. The participants will have a total appreciation of the methodology required to develop offshore oil and gas fields and have an understanding of all of the Flow Assurance issues and technology requirements. Training Objectives After the completion of this training course, participants will be able to: Understand the process required and identify data to analyse Flow Assurance for oil and gas fields. Examine and Identify the Flow Assurance issues required to be evaluated for oil and gas fields design. These include; Wax, Hydrates, Slugging, Corrosion, Sand Erosion, Scaling and Surge. Establish the studies to be undertaken for each area of Flow Assurance including 'Rules of Thumb' and software to be used. Prioritize the need for innovative methods and the technologies to solve Flow Assurance issues and the need for economics considerations. Appreciate the need for an integrated analysis of the oil and fields from the reservoir to the host processing facility. Gain an appreciation of the emerging and enabling technologies for offshore fields application. Dive deeper into the operational strategies requirements to mitigate Flow Assurance issues. Target Audience This training course is suitable and will greatly benefit the following specific groups: Reservoir Engineers Flow Assurance Engineers Thermodynamics Engineers Process and Chemical Engineers Pipeline Engineers Facilities Engineers Control and Subsea Engineers working in the Oil and Gas industries Engineers in other disciplines may attend that require an appreciation of Flow Assurance Course Level Intermediate Training Methods The training instructor relies on a highly interactive training method to enhance the learning process. This method ensures that all participants gain a complete understanding of all the topics covered. The training environment is highly stimulating, challenging, and effective because the participants will learn by case studies which will allow them to apply the material taught in their own organization. Course Duration: 5 days in total (35 hours). Training Schedule 0830 - Registration 0900 - Start of training 1030 - Morning Break 1045 - Training recommences 1230 - Lunch Break 1330 - Training recommences 1515 - Evening break 1530 - Training recommences 1700 - End of Training Course delivery: This course is limited to a maximum of 20 participants only. A basic understanding of thermo-hydraulics would be advantageous. Morning Lectures and afternoon hands-on practical workshop. Special features: PC-based simulation software demonstration Workshop for hands-on training Course References & Additional resources: 'Flow Assurance for Oil and Gas Fields Production Transport', 1st Edition Handouts Pre & Post Assessment Trainer Your expert course leader is a renowned specialist in flow assurance management for the oil & gas field developments. His expertise enables him to support the operating and contracting companies as well as financial institutions regarding due diligence on offshore development investment decisions and associated operational system risks. Technical assessment of fields for acquisition and production enhancement opportunity. He possesses specialist expertise in evaluating difficult pipeline fluids transport such as Ethylene, Carbon Dioxide and Hydrogen through feasibility studies and technical reviews for clients. He has an exceptional academic background and natural leadership abilities are supported by practical experience of diverse projects worldwide, along with numerous publications at key conferences and publication of four books. Particular interests in developing novel and innovative technologies for subsea applications to solve difficult flow assurance problem areas and improve field development economics. He has worked on major industry projects including; Concorde aircraft fuelling system, the Channel Tunnel aerodynamics and the first deep water oil field development (Foinaven) in the West of Shetland. He is also currently developing a renewable energy solar farm and carbon neutral energy crop (Miscanthus) for domestic and commercial power generation application. He has developed in-house resources including specialist oil & gas field development evaluation software for subsea and onshore field infrastructure development options including; costing and financial analysis, reservoir viability, flow assurance assessment, subsea processing and boosting technologies, flow induced vibrations, surge analysis, heat transfer and chemical injection systems.

Autocad and Sketchup face to face training customised and bespoke.

Who is this course for? Twinmotion Training Course. The Twinmotion course is designed for architects, interior designers and urban planners. Learn how to create architectural visualizations and real-time animations. Students interested in exploring the world of architectural rendering and visualization using Twinmotion software. Click here for more info: Website Duration: 10 hours Approach: 1-on-1 training with tailored content. Schedule: Book a time that suits you, Mon to Sat, from 9 am to 7 pm, and create your own schedule. Course Outline for Twinmotion Real-time 3D Architecture Visualization: Module 1: Twinmotion Introduction Explore the real-time 3D visualization capabilities of Twinmotion Master efficient scene manipulation through the Twinmotion interface Prepare 3D files for import and manage the workflow effectively Module 2: Materials and Realism Enhancement Enhance scenes with realistic materials and elevate visual quality Utilize videos as materials and apply glowing effects Create grunge materials to add texture and realism Employ the X-ray material for specific visualization needs Module 3: Landscape and Vegetation Integration Integrate vegetation using Twinmotion's scatter, HQ trees, and growth features Customize grass and utilize HQ vegetation assets for realistic landscapes Create time-lapse effects for dynamic vegetation growth Module 4: Library and Object Management Access the Twinmotion library for furniture and objects Seamlessly import external 3D objects into your scenes Obtain high-quality 3D assets from the internet and add them to your user library Utilize BIM-objects for additional assets Module 5: Lighting and Animation Techniques Work with various lighting options, including area light and volumetric light, to enhance scenes Add animated characters and vehicles to infuse dynamism into your visuals Incorporate construction vehicles and aircraft for realistic scenes Module 6: Volumes and Interactive Elements Utilize volumes and the animator feature to create dynamic scenes Implement urban elements and measurement tools for precision and accuracy Module 7: Nature and Weather Effects Utilization Harness Twinmotion's nature features, such as physical sky and weather effects, to create lifelike outdoor scenes Establish realistic lighting for outdoor environments Add ocean effects to enhance water elements in your scenes Module 8: Advanced Rendering Techniques Master rendering processes, from creating images to exporting panoramas and animations Implement depth of field improvements to create visually captivating scenes Create BIM motion virtual reality phases for immersive experiences Utilize the Twinmotion presenter feature for seamless presentations Module 9: Final Project Apply acquired knowledge and skills to complete a final rendering project in Twinmotion Download Twinmotion https://www.twinmotion.com â€º download Learn how to download and install Twinmotion, the fast, easy real-time archvis tool. Learning Outcomes of Real-Time Rendering: Efficient Scene Creation: Rapid development of immersive 3D environments using essential tools and techniques. Realistic Material Application: Expertise in applying authentic textures and shaders for visually convincing scenes. Dynamic Lighting: Understanding dynamic lighting effects for visually compelling, realistic scenes. Interactive Elements: Integration of animations and dynamic objects for engaging user experiences. Performance Optimization: Optimizing assets and scenes for smooth real-time rendering across diverse hardware. Library Utilization: Efficient use of asset libraries to enhance scene complexity without compromising performance. Visual Effects: Application of weather conditions, particle systems, and post-processing effects for stunning environments. Collaborative Rendering: Mastering real-time collaborative rendering techniques for teamwork and live interactions. Future Trends in Real-Time Rendering: Ray Tracing Advancements: Real-time ray tracing for realistic lighting, shadows, and reflections. AI-Powered Rendering: AI-driven predictive rendering for faster, high-quality outcomes. Immersive Experiences: Real-time rendering enabling immersive simulations in gaming, education, and architecture. Cross-Platform Compatibility: Seamless experiences across devices, from gaming consoles to VR headsets. Blockchain Integration: Blockchain tech ensuring asset authenticity and ownership verification. Real-Time Cinematography: Revolutionizing film and animation with efficient real-time visual effects. Environmental Sustainability: Focus on energy-efficient algorithms for reduced environmental impact. Collaborative Design: Real-time rendering facilitating interactive design reviews and creative collaboration. Twinmotion Course: Expertise in Real-Time Visualization: Develop mastery in Twinmotion, enabling the creation of captivating architectural environments in real-time. Improved Design Communication: Enhance concept communication by utilizing dynamic visualizations, elevating the quality of design presentations. Access to High-Quality Assets: Utilize an extensive library of premium assets to enrich scenes, adding realism and creativity to your projects. Crafting Lifelike Environments: Learn to create realistic landscapes, water effects, weather conditions, and special effects, providing immersive and lifelike experiences. Flexible Learning Options: Choose between in-person or live online sessions, ensuring a personalized and convenient learning experience tailored to your needs. Lifetime Access and Support: Benefit from perpetual access to lesson recordings and receive continuous support through lifetime email assistance, allowing you to stay connected with knowledgeable instructors for ongoing guidance. Course Advantages: Mastery of Real-Time Visualization: Acquire expertise in Twinmotion for creating captivating architectural environments. Enhanced Design Communication: Improve concept communication through dynamic visualizations, elevating design presentations. Abundant High-Quality Assets: Utilize an extensive library of top-notch assets, enriching scenes with realism and creativity. Creation of Lifelike Environments: Craft realistic landscapes, water effects, weather conditions, and special effects for immersive experiences. Flexible Learning Options: Choose between in-person or live online sessions, ensuring a personalized and convenient learning experience. Lifetime Access and Support: Enjoy perpetual access to lesson recordings and receive continuous support through lifetime email assistance, staying connected with knowledgeable instructors.

Innovation Project Management: Virtual In-House Training Companies need growth for survival. Companies cannot grow simply through cost reduction and reengineering efforts. This program describes the relationship that needs to be established between innovation, business strategy, and project management to turn a creative idea into a reality. We will explore the importance of identifying the components of an innovative culture, existing differences, challenges, and the new set of skills needed in innovation project management. Companies need growth for survival. Companies cannot grow simply through cost reduction and reengineering efforts. Innovation is needed and someone must manage these innovation projects. Over the past two decades, there has been a great deal of literature published on innovation and innovation management. Converting a creative idea into reality requires projects and some form of project management. Unfortunately, innovation projects, which are viewed as strategic projects, may not be able to be managed using the traditional project management philosophy we teach in our project management courses. There are different skill sets needed, different tools, and different life-cycle phases. Innovation varies from industry to industry and even companies within the same industry cannot come to an agreement on how innovation project management should work. This program describes the relationship that needs to be established between innovation, business strategy, and project management to turn a creative idea into a reality. We will explore the importance of identifying the components of an innovative culture, existing differences, challenges, and the new set of skills needed in innovation project management. What you Will Learn Explain the links needed to bridge innovation, project management, and business strategy Describe the different types of innovation and the form of project management each require Identify the differences between traditional and innovation project management, especially regarding governance, human resources management challenges, components of an innovative culture and competencies needed by innovation project managers Establish business value and the importance of new metrics for measuring and reporting business value Relate innovation to business models and the skills needed to contribute in the business model development Recognize the roadblocks affecting innovation project management and their cause to determine what actions can be taken Determine the success and failure criteria of an innovation project Foundation Concepts Understanding innovation Role of innovation in a company Differences between traditional (operational) and strategic projects Innovation management Differences between innovation and R&D Differing views of innovation Why innovation often struggles Linking Innovation Project Management to Business Strategy The business side of innovation project management The need for innovation targeting Getting close to the customers and their needs The need for line-of-sight to the strategic objectives The innovation enterprise environmental factors Tools for linking Internal Versus External (Co-creation) Innovation Open versus closed innovation Open innovation versus crowdsourcing Benefits of internal innovation Benefits of co-creation (external) innovation Selecting co-creation partners The focus of co-creation The issues with intellectual property Understanding co-creation values Understanding the importance of value-in-use Classification of Innovations and Innovation Projects Types of projects Types of innovations Competency-enhancing versus competency-destroying innovations Types of innovation novelty Public Sector of Innovation Comparing public and private sector project management Types of public service innovations Reasons for some public sector innovation failures An Introduction to Innovation Project Management Why traditional project management may not work The need for a knowledge management system Differences between traditional and innovation project management Issues with the 'one-size-fits-all' methodology Using end-to-end innovation project management Technology readiness levels (TRLs) Integrating Kanban principles into innovation project management Innovation and the Human Resources Management Challenge Obtaining resources Need for a talent pipeline Need for effective resource management practices Prioritizing resource utilization Using organizational slack Corporate Innovation Governance Types of innovation governance Business Impact Analysis (BIA) Innovation Project Portfolio Management Office (IPPMO) Using nondisclosure agreements, secrecy agreements, confidentiality agreements, and patents Adverse effects of governance decisions Innovation Cultures Characteristics of a culture for innovation Types of cultures Selecting the right people Linking innovation to rewards Impact of the organizational reward system Innovation Competencies Types of innovation leadership The need for active listening Design thinking Dealing with ambiguity, uncertainty, risks, crises, and human factors Value-Based Innovation Project Management Metrics Importance of innovation project management metrics Understanding value-driven project management Differences between benefits and value - and when to measure Traditional versus the investment life cycle Benefits harvesting Benefits and value sustainment Resistance to change Tangible and intangible innovation project management metrics Business Model Innovation Business model characteristics Impact of disruptive innovation Innovation Roadblocks Roadblocks and challenges facing project managers Ways to overcome the roadblocks Defining Innovation Success and Failure Categories for innovation success and failure Need for suitability and exit criteria Reasons for innovation project failure Predictions on the Future of Innovation Project Management The Six Pillars of changing times Some uses for the new value and benefits metrics

About this training course This 5 full-day course provide a comprehensive understanding of modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, HART protocol, control valves, actuators, and smart technology. This course will focus on maximizing the efficiency, reliability, and longevity of these systems and equipment by providing an understanding of the characteristics, selection criteria, common problems and repair techniques, preventive and predictive maintenance. This course is a MUST for anyone who is involved in the selection, applications, or maintenance of modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology because it covers how these systems and equipment operate, the latest maintenance techniques, and provides guidelines and rules that ensure their successful operation. In addition, this course will cover in detail the basic design, operating characteristics, specification, selection criteria, advanced fault detection techniques, critical components and all preventive and predictive maintenance methods in order to increase the reliability of these systems andequipment and reduce their operation and maintenance cost This course will provide the following information for modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology: Basic Design Specification Selection Criteria Sizing Calculations Enclosures and Sealing Arrangements Codes and Standards Common Operational Problems All Diagnostics, Troubleshooting, Testing, and Maintenance Practical applications of smart instrumentation, SCADA, and Distributed Control Systems, control valves, actuators, etc in the following industries will be discussed in detail: Chemical and petrochemical Power generation Pulp and paper Aerospace Water and sewage treatment Electrical power grids Environmental monitoring and control systems Pharmaceutical plants Training Objectives Equipment Operation: Gain a thorough understanding of the operating characteristics of modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Equipment Diagnostics and Inspection: Learn in detail all the diagnostic techniques and inspections required of critical components of modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Equipment Testing: Understand thoroughly all the tests required for the various types of modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Equipment Maintenance and Troubleshooting: Determine all the maintenance and troubleshooting activities required to minimize the downtime and operating cost of modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Equipment Repair and Refurbishment: Gain a detailed understanding of the various methods used to repair and refurbish modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Efficiency, Reliability, and Longevity: Learn the various methods used to maximize the efficiency, reliability, and longevity of modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Equipment Sizing: Gain a detailed understanding of all the calculations and sizing techniques used for modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Design Features: Understand all the design features that improve the efficiency and reliability of modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Equipment Selection: Learn how to select modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology by using the performance characteristics and selection criteria that you will learn in this course Equipment Enclosures and Sealing Methods Learn about the various types of enclosures and sealing arrangements used for modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Equipment Commissioning: Understand all the commissioning requirements for modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Equipment Codes and Standards: Learn all the codes and standards applicable for modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Equipment Causes and Modes of Failure: Understand the causes and modes of failure of modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology System Design: Learn all the requirements for designing different types of modern control systems, digital control, distributed control systems (DCSs), supervisory control and data acquisition (SCADA) systems, industrial instrumentation, control valves, actuators, and smart technology Target Audience Engineers of all disciplines Managers Technicians Maintenance personnel Other technical individuals Training Methods Your specialist course leader relies on a highly interactive training method to enhance the learning process. This method ensures that all participants gain a complete understanding of all topics covered. The training environment is highly stimulating, challenging, and effective because the participants will learn by case studies which will allow them to apply the material taught to their own organization. Each delegate will receive a copy of the following materials written by the instructor: Industrial Instrumentation and Modern Control Systems Practical Manual (400 pages) Trainer Your specialist course leader has more than 32 years of practical engineering experience with Ontario Power Generation (OPG), one of the largest electric utility in North America. He was previously involved in research on power generation equipment with Atomic Energy of Canada Limited at their Chalk River and Whiteshell Nuclear Research Laboratories. While working at OPG, he acted as a Training Manager, Engineering Supervisor, System Responsible Engineer and Design Engineer. During the period of time, he worked as a Field Engineer and Design Engineer, he was responsible for the operation, maintenance, diagnostics, and testing of gas turbines, steam turbines, generators, motors, transformers, inverters, valves, pumps, compressors, instrumentation and control systems. Further, his responsibilities included designing, engineering, diagnosing equipment problems and recommending solutions to repair deficiencies and improve system performance, supervising engineers, setting up preventive maintenance programs, writing Operating and Design Manuals, and commissioning new equipment. Later, he worked as the manager of a section dedicated to providing training for the staff at the power stations. The training provided by him covered in detail the various equipment and systems used in power stations. In addition, he has taught courses and seminars to more than four thousand working engineers and professionals around the world, specifically Europe and North America. He has been consistently ranked as 'Excellent' or 'Very Good' by the delegates who attended his seminars and lectures. He written 5 books for working engineers from which 3 have been published by McGraw-Hill, New York. Below is a list of the books authored by him; Power Generation Handbook: Gas Turbines, Steam Power Plants, Co-generation, and Combined Cycles, second edition, (800 pages), McGraw-Hill, New York, October 2011. Electrical Equipment Handbook (600 pages), McGraw-Hill, New York, March 2003. Power Plant Equipment Operation and Maintenance Guide (800 pages), McGraw-Hill, New York, January 2012. Industrial Instrumentation and Modern Control Systems (400 pages), Custom Publishing, University of Toronto, University of Toronto Custom Publishing (1999). Industrial Equipment (600 pages), Custom Publishing, University of Toronto, University of Toronto, University of Toronto Custom Publishing (1999). Furthermore, he has received the following awards: The first 'Excellence in Teaching' award offered by PowerEdge, Singapore, in December 2016 The first 'Excellence in Teaching' award offered by the Professional Development Center at University of Toronto (May, 1996). The 'Excellence in Teaching Award' in April 2007 offered by TUV Akademie (TUV Akademie is one of the largest Professional Development centre in world, it is based in Germany and the United Arab Emirates, and provides engineering training to engineers and managers across Europe and the Middle East). Awarded graduation 'With Distinction' from Dalhousie University when completed Bachelor of Engineering degree (1983). Lastly, he was awarded his Bachelor of Engineering Degree 'with distinction' from Dalhousie University, Halifax, Nova Scotia, Canada. He also received a Master of Applied Science in Engineering (M.A.Sc.) from the University of Ottawa, Canada. He is also a member of the Association of Professional Engineers in the province of Ontario, Canada. POST TRAINING COACHING SUPPORT (OPTIONAL) To further optimise your learning experience from our courses, we also offer individualized 'One to One' coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster. Request for further information post training support and fees applicable Accreditions And Affliations

Why Choose Unity 3D Intermediate Level Training Course? Click here for more info Learn game development potential with our Unity 3D training courses. Perfect for beginners and experienced developers, learn to create high-quality 3D & 2D games across various platforms. Led by certified Unity instructors, explore mobile, desktop, VR/AR, consoles, and Web game development. Duration: 20 hrs Method: 1-on-1, Personalized attention Schedule: Tailor your own hours of your choice, available from Mon to Sat between 9 am and 7 pm Learn Unity 3D and VR Development with a course at London Design Courses. Explore Unity 3D's core features in our immersive course. Delve into materials, animations, and scripting for dynamic 3D games and applications. Tailored for all levels, the course offers personalized learning and expert insights. Additionally, discover the world of VR development with Unity 3D, mastering hardware setup and immersive experiences. Join us to unleash your game development and VR potential. Course Outline: Hours 1-2: Introduction to Unity Explore the Unity interface and workspace Initiate a new Unity project Set up the basic scene and navigation Hours 3-4: Importing Assets Discover and download free assets Import assets into Unity Understand different asset types and their applications Hours 5-6: Building the Environment Utilize Unity's terrain tool for environment creation Enhance with textures and materials Add environmental objects to enrich the scene Hours 7-8: Character Design Create 3D models for characters Rig and animate the character Import the character into Unity Hours 9-10: Player Controls Set up and comprehend player controls Script basic movements and interactions Implement camera controls for seamless gameplay Hours 11-12: Physics Grasp and implement physics in Unity Configure collisions and triggers Integrate gravity, force, and torque for realism Hours 13-14: Audio Master audio implementation in Unity Add sound effects and background music Fine-tune volume and pitch for immersive experiences Hours 15-16: Lighting and Effects Employ lighting techniques in Unity Create dynamic day-night cycles Enhance visuals with lens flares and particle systems Hours 17-18: User Interface Construct a user interface with Unity's canvas system Integrate interactive elements like buttons and menus Script user interface components for smooth functionality Hours 19-20: Optimization and Performance Implement optimization techniques in Unity Utilize the profiler to analyze performance Improve frame rate and reduce memory usage Hours 21-22: Multiplayer Explore multiplayer implementation in Unity Set up a local multiplayer game Hours 23-24: Mobile Development Discover mobile development in Unity Build and deploy games for mobile devices Optimize for mobile performance and controls Hour 25: Advanced Topics Dive into advanced scripting techniques like coroutines, delegates, and events Explore shader programming and visual effects Delve into VR development with Unity and Oculus Quest Final Project: Create a Simple Game from Start to Finish Test the game and identify bugs Make necessary adjustments and improvements Experience the Real-Time Development Platform - Get Started on Unity Pro Today: https://www.unity.com/ Create 3D, 2D, VR & AR Experiences for Any Industry - Games, Auto, AEC, Film, and More. A Complete Solution to Develop Better, Iterate Faster, and Grow Your Business. Learning Outcome: By completing the Unity 3D Training Course, you will: Master Unity's interface and workspace. Import and manage diverse assets effectively. Create captivating environments and characters. Implement player controls and physics for realism. Enhance your games with audio and visual effects. Design user-friendly interfaces with interactive elements. Optimize performance and reduce memory usage. Explore multiplayer and mobile game development. Delve into advanced scripting techniques and VR development. Successfully create a simple game from start to finish.

Course Information This course offers foundational guidance and practical support tailored for individuals operating within Good Manufacturing Practice (GMP) frameworks. Explore the fundamental prerequisites of a pharmaceutical quality system (PQS) and delve into the application of quality risk management (QRM) principles, aligning with current regulations and guidance. Gain insights into pivotal aspects such as requirements, roles, and responsibilities, encompassing change control, document management, and key documentation essential for effective implementation of GMP with a focus on regulatory inspections and common findings. Is this course for you? Ideal for professionals engaged in GMP across various sectors, including: Research and Development (R&D) Contract Manufacturing Organisations Manufacturing Units Quality Control (QC) Laboratories Auditing Roles. What will you learn? Event objectives - by the end of the course, delegates shall: Have an awareness of the basic requirements of GMP Be aware of UK and EU GMP Rules and Guidance and relevant publications Understand the roles and responsibilities associated with GMP Be able to contribute to and maintain quality documentation Have a basic understanding of product lifecycle and manufacturing Understand the requirements of GMP in the QC laboratory context Have a basic understanding of risk management and mitigation principles Understand the need for quality systems and quality assurance activities Be aware of common regulatory findings. Learning outcomes: delegates will be able to: Implement their role within GMP with confidence and knowledge of the principle requirements Contribute effectively to the GMP quality system and their organisation’s compliance Comprehend where their organisation’s activities sit within the larger GMP arena Know where to seek further information within the published rules and guidance, UK Legislation, European Commission Directives, ICH Guidance and other relevant publications, as well as via the internet. Tutors Tutors will be comprised of (click the photos for biographies): Louise Handy Director, Handy Consulting Ltd Programme Please note timings may be subject to alteration. Day 1 09:30 Introductions and Scope of the Course Understand the group requirements and the tutor's background and experience. 09:45 Background and Regulatory Environment Setting the scene, understanding the context, key legislation. 10:30 Principles of GMP Key points and requirements. 11:15 Break 11:30 Personnel and Responsibilities Management and staff, duties and accountabilities. 12:00 Overview of GMP Manufacturing Basics of the product life cycle. 12:30 Lunch 13:15 Risk Management Workshop Practical exploration of risk and mitigation activities. 14:30 QC Laboratories Activities and practicalities. 15:15 Break 15:30 Compliance Quality Assurance and Self Inspection. 16:15 Question Time A chance for questions on the practicalities of GMP. 16:30 Close of Course Extra Information Course Material This course will be run completely online. You will receive an email with a link to our online system, which will house your licensed course materials and access to the remote event. Please note this course will run in UK timezone. The advantages of this include: Ability for delegates to keep material on a mobile device Ability to review material at any time pre and post course Environmental benefits – less paper being used per course Access to an online course group to enhance networking. You will need a stable internet connection, a microphone and a webcam. CPD Points 7 Points   Development Level Learn

Duration 2 Days 12 CPD hours This course is intended for This course benefits individuals responsible for configuring and monitoring EX Series switches using Junos ELS. Overview After successfully completing this course, you should be able to: Restrict traffic flow within a VLAN. Manage dynamic VLAN registration. Tunnel Layer 2 traffic through Ethernet networks. Review the purpose and operations of a spanning tree. Implement multiple spanning-tree instances in a network. Implement one or more spanning-tree instances for a VLAN. List the benefits of implementing end-user authentication. Explain the operations of various access control features. Configure and monitor various access control features. Describe processing considerations when multiple authentication and access control features are enabled. Describe some common IP telephony deployment scenarios. Describe features that facilitate IP telephony deployments. Configure and monitor features used in IP telephony deployments. Explain the purpose and basic operations of CoS. Describe CoS features used in Layer 2 networks. Configure and monitor CoS in a Layer 2 network. Describe a basic troubleshooting method. List common issues that disrupt network operations. Identify tools used in network troubleshooting. Use available tools to resolve network issues. This two-day course provides detailed coverage of virtual LAN (VLAN) operations. Chapter 1: Course Introduction Course Introduction Chapter 2: Troubleshooting as a Process Before You Begin The Troubleshooting Process Challenging Network Issues The Troubleshooting Process Lab Chapter 3: Junos Product Families The Junos OS Control Plane and Data Plane Field-Replaceable Units Junos Product Families Lab: Identifying Hardware Components Chapter 4: Troubleshooting Toolkit Troubleshooting Tools Best Practices Lab: Using Monitoring Tools and Establishing a Baseline Chapter 5: Hardware and Environmental Conditions Hardware Troubleshooting Overview Memory and Storage Boot Monitoring Hardware-Related System Logs Chassis and Environmental Monitoring Lab: Monitoring Hardware and Environmental Conditions Chapter 6: Control Plane Control Plane Review System and User Processes Monitoring Routing Tables and Protocols Monitoring Bridging Monitoring the Address Resolution Protocol Lab: Control Plane Monitoring and Troubleshooting Chapter 7: Control Plane Protection Protection Overview DDOS Protection Loopback Filter Lab: Control Plane Monitoring and Troubleshooting Chapter 8: Data Plane ? Interfaces Interface Properties General Interface Troubleshooting Ethernet Interface Troubleshooting Lab: Monitoring and Troubleshooting Ethernet Interfaces Chapter 9: Data Plane ? Other Components Definition of a Data Plane Problem Data Plane Components Data Plane Forwarding Load-Balancing Behavior Firewall Filters and Policers Data Plane Troubleshooting Case Study Lab: Isolate and Troubleshoot PFE Issues Chapter 10: Staging and Acceptance Testing Initial Inspection and Power-on General System Checks Interface Testing Chapter 11: Troubleshooting Routing Protocols Troubleshooting OSPF Troubleshooting BGP Troubleshooting Routing Loops and Route Oscillation Lab: Troubleshooting Routing Protocols Chapter 12: High Availability High Availability Overview Graceful Routing Engine Switchover Graceful Restart Nonstop Active Routing and Bridging Unified In-Service Software Upgrade Chapter 13: Network Monitoring SNMP RMON Telemetry Flow Monitoring Lab: Monitoring the Network Chapter 14: vMX Troubleshooting vMX Overview Troubleshooting Lab: Monitoring vMX Chapter 15: JTAC Procedures Opening a Support Case Customer Support Tools The Content of a PR Transferring Files to JTAC Chapter 16: Automated Support and Prevention Overview Service Now Service Insight Lab: Automated Support and Prevention