About this training course The smart meter or smart grid represents the next-generation electrical power system. This system uses information, data & communication technology within generation, delivery and consumption of electric energy. This 4-day course will equip you with the innovations that are shaping the power generation and distribution systems and will cover topics ranging from Smart Metering Architecture, Cybersecurity, Smart Grid Systems and Power Line Communications. Training Objectives By participating in this course, you will be able to: Comprehend the Smart Grid and Smart Meters architecture Review latest trends and challenges within the Smart Grid Technology Perform analysis on smart electronic meters Comply with regulatory and metering standards Recognize the importance of cybersecurity in smart grids Maximize efficiency, reliability, and longevity of your smart meters and equipment Gain valuable insights into power quality and harmonics Target Audience This course will greatly benefit the following groups but not limited to: Smart Grid managers and engineers Smart Meters managers and engineers Power plant managers Outage managers Maintenance and operations engineers Power regulatory personnel Transmission managers and engineers Distribution managers and engineers IT managers Renewable energy managers and engineers Course Level Basic or Foundation 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: 4 days in total (28 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 The maximum number of participants allowed for this training course is 25. This course is also available through our Virtual Instructor Led Training (VILT) format. Trainer Your expert course leader is a professional engineer with extensive experience in power system studies, substation design field-testing, and EHS programs settings for Mining and Electrical Utilities sectors. He was formally the Engineering Manager at GE Canada in Ontario. He received his M.Sc. in electrical engineering from the University of New Brunswick and his MBA from Laurier School of Business in Waterloo. He has managed and executed more than 150 engineering projects on substation design EMF audits and power system studies and analyses, EMF audits and grounding audits, for major electrical utilities, mines, oil and gas, data centers, industrial and commercial facilities in Canada and the U.S. He is a certified professional engineer in the provinces of Ontario and Alberta. He has various IEEE publications, has served as a technical reviewer for many IEEE journals in power systems and control systems, and is the chair of the Industry Application Chapter (IAS) for IEEE Toronto Section. He remains a very active member for the IEEE substation committee of IEEE Std. 81 ground testing (WGE6) and IEEE Std. 80 ground design (WGD7). A certified electrical safety trainer by GE Corporate and a Canadian Standard Association (CSA) committee member at the mining advisory panel for electrical safety, he also taught many technical courses all over Canada to industrial customers, electrical consultants as well as to electrical utilities customers. Highlighted Projects: Various Power System Studies for 345/230 kV Stations - Nova Scotia Power (EMERA) RF audits for Telecom tower and antennas - Cogeco/Rogers Mobile Power System analysis - Powell Canada Structural/Geotechnical Design and upgrades - Oakville Hydro Underground Cables testing and sizing - Plan Group Relay programming and design optimization - Cenovus Canada Different Arc Flash Analysis and BESS Design - SNC Lavalin Environmental site assessment (ESA) Phase I/II for multiple stations - Ontario Electromagnetic compatibility (EMC) assessment for Toronto LRT expansion - MOSAIC Battery energy storage system (BESS) installation at City of London - Siemens Canada EMF audits for 500 kV Transmission Lines - Hydro One EMF audits for 500 kV Transmission Lines - Hydro Quebec AC interference for 138 kV line modeling and mitigations - HBMS Mine 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
Enhance your respiratory care skills with our comprehensive course. Learn to assess, diagnose, and manage respiratory conditions for better patient outcomes.
NPORS Harness and Fall Arrest (N723)
This market-leading health and safety course enables companies to demonstrate compliance and embed health and safety into the company culture. Whilst anyone can attend, it is particularly beneficial for line managers, team leaders and supervisors. It is tried, tested and trusted.
The aim of the course is to ensure that safety requirements are appreciated by managers. To enable them to review their own safety systems. It give’s the ability to introduce new controls and possibly implement changes as appropriate to ensure safety in the workplace. Who Should Attend? The course is designed for managers and supervisors in any sector, who are required to manage health and safety risk and resources within their organisation. It is also beneficial for anybody wishing to get into the Health and Safety profession or Management. The IOSH qualification is an impressive qualification to add to a CV. Course Duration: 3 days. Learning Objectives: On successful completion of the course, delegates should be able to: Explain ‘managing safely’. Explain the component parts of a recognised safety management system such as HSG65. Identify the data and techniques required to produce an adequate record of an incident. To demonstrate the procedure for an accident investigation, recognising the human factors involved. Describe statutory requirements for reporting and procedures for checking non-reporting. Describe methods of basic trend analysis for reactive monitoring data. Define ‘hazard’ and ‘risk’, and describe the legal requirements for risk assessment. Demonstrate a practical understanding of risk assessment technique and the data required for records. Describe workplace precaution hierarchies. Prepare and use active monitoring checklists. To implement schedules for active monitoring, recording results and analysing records. Outline the main provisions of the Health and Safety at Work etc Act and the Management of Health and Safety at Work Regulations. Outline relevant health and safety legislation, codes of practice, guidance notes and information sources such as the HSE. Syllabus: 1. Module 1 – Introduction and Overview. 2. Module 2 – Risk Assessment. 3. Module 3 – Risk Control. 4. Module 4 – Health and Safety Legislation. 5. Module 5 – Common Hazards. 6. Module 6 – Investigating Accidents and Incidents. 7. Module 7 – Measuring Performance. What do IOSH Managing Safely Courses involve? The course has seven comprehensive modules. These modules cover risk assessment and control, Health and Safety Legislation, common hazards, accident and incident investigation. Also covered is performance measurement. Effectively covering all aspects of safety management in the workplace. To obtain the IOSH Managing Safely certificate, attendees will need to complete a four day course. The course is delivered using high quality animated graphics. This includes sophisticated, fun presentations to make the content of the course more memorable. With training tools including board games, DVDs and quizzes displaying clear scenarios and essential practical content. We have worked hard to ensure that taking an IOSH Managing Safely course is as enjoyable as possible. Attendees will officially attain their IOSH Managing Safely certificate upon successful completion of both the written and practical assessments of the course. Certification: An IOSH Managing Safely certificate is awarded to all those who attend the course successfully completing both written and practical assessments. Candidates will also receive an excellent workbook from IOSH, with all the tools to help them once they are back in the workplace. Understanding of the course material is evaluated by means of a 45-minute written assessment paper consisting of 20 multi-format questions. There is also a practical assessment. MHA Training was established in 2008 based at our training centre in Warrington, Cheshire. We provide an array of services On-Site also for clients around the North West in areas such as Manchester, Liverpool, Widnes, St Helens, Runcorn, Wigan, Preston and Leeds. Over the years we have expanded and have instructors available for all of our courses Nationwide. IOSH Managing Safely Refresher Course: Recently IOSH have introduced a one day refresher course. This enables candidates having previously sat a course within 3 years to keep their qualification current and upto date in just a one day course. For more information please see the factsheet below.
Some 60% of injuries at work are caused by lifting heavy objects. This powerful, practical programme is designed to help stop any of your staff from becoming the next statistic. 1 Introduction and objectives 2 Overview of Health and Safety Legislation and HSE Injury Statistics Health and Safety at Work Act 1974 Management of Health and Safety at Work Regulations (MHSWR) 1992 MHSWR 1999 specific duties to risk assess Manual Handling Operations Regulations (MHOR) 1992 Breakdown of injury statistics and costs of poor manual handling 3 The musculoskeletal system explained Prevention and ill-health Ergonomics RSI The spine in detail 4 Risk assessment General principles The TILE method Employees' duties Workplace scenarios
Enhance your ear assessment and care skills with our comprehensive course on ear irrigation. Gain practical knowledge and updated insights for optimal ear hygiene.
RF fundamentals training course description Radio Frequency engineering is an important yet often overlooked area in today's wireless world. This course provides a grounding in RF theory and practice for wireless, cellular and microwave systems. What will you learn Explain the basics of RF. Describe RF propagation and antenna principles. Calculate propagation losses and link budgets. Test RF systems. RF fundamentals training course details Who will benefit: Those working with wireless, cellular and microwave systems. Prerequisites: None. Duration 2 days RF fundamentals training course contents What is RF? Definition of RF, RF wave characteristics: Frequency, wavelength, power, phase, impedance, RF history, radio signals, frequency bands, safety issues, legal issues. RF systems Microwaves, cellular/mobile RF, WLANs, other fixed wireless networks, basic RF components. Hands on Building a basic WLAN network. RF system components Transmitters: Antennas: Isotropic, Dipole, how antennas achieve gain. Modulation Schemes, bandwidth, AM, FM, FSK, PSK, QAM, QPSK, interference, performance. Hands on Interference and performance. Multiple access schemes FDMA, CDMA, TDMA, CSMA/CA. Wireless systems Cellular (GSM, UMTS), Wifi, WiMax, others: GPS, DBS, RFID, radar, Bluetooth. Hands on cellular. Spread Spectrum technologies Spread spectrum benefits and disadvantages, how it works, Direct Sequence, Frequency Hopping, hybrids. RF propagation Models, link budget, Smith chart, RF matching with the Smith chart. cell capacity, tradeoffs: power vs. bandwidth, free space, reflection, diffraction, multipath cancellation, propagation prediction and measurement tools. Hands on Smith charts. RF testing Why power rather than voltage/current, units of power, dB and dBm power conversions. Test equipment: signal generators, power meters, network analysers, spectrum analysers. RF test setups: return loss, insertion loss. Hands on RF testing.
NPORS Lift Truck Supervisor Awareness (N036)