2 Educators providing Mechanical courses in Cardiff delivered Live Online

Our intensive 10, 15 or 20 day Total Air Conditioning and Refrigeration training courses have been structured to meet the ever increasing demands on industry to meet safety, environmental and legal requirements regarding installation, commissioning, service and maintenance of both refrigeration and air conditioning systems including the electrical aspects of installation dependent upon course selection. The first 10 days of the Total Air Conditioning and Refrigeration training course are mechanical only, the following 5 or 10 days are the electrical aspects, depending on which route you need to go down. The Total Air Conditioning and Refrigeration training courses are accredited with the City & Guilds 2079, BESA Pipework and Brazing – (commercial), along with an EAL Unit* – Maintenance of Refrigeration Systems from the EAL Certificate in Engineering Technology (QCF) qualification. (*Practical elements will be covered during the course with a Project booklet to be completed by the student with an element of self-study after the course completion for us to claim the Unit certification from EAL). Our Total Air Conditioning and Refrigeration training courses are designed to be as practical as they possibly can be, with workshop time taking more than 70% of the course. During the Total Air Conditioning and Refrigeration training course, you will, install, repair, fault find, adapt and commission on a variety of different equipment, because we believe the way to learn is to do it!! With ALL our courses we offer unbiased technical support and access to a wealth of knowledge and information upon completion. Once you’ve completed your course with Technique, you can be assured that our service doesn’t end there…

Our intensive 10, 15 or 20 day Total Air Conditioning and Refrigeration training courses have been structured to meet the ever increasing demands on industry to meet safety, environmental and legal requirements regarding installation, commissioning, service and maintenance of both refrigeration and air conditioning systems including the electrical aspects of installation dependent upon course selection. The first 10 days of the Total Air Conditioning and Refrigeration training course are mechanical only, the following 5 or 10 days are the electrical aspects, depending on which route you need to go down. The Total Air Conditioning and Refrigeration training courses are accredited with the City & Guilds 2079, BESA Pipework and Brazing – (commercial), along with an EAL Unit* – Maintenance of Refrigeration Systems from the EAL Certificate in Engineering Technology (QCF) qualification. (*Practical elements will be covered during the course with a Project booklet to be completed by the student with an element of self-study after the course completion for us to claim the Unit certification from EAL). Our Total Air Conditioning and Refrigeration training courses are designed to be as practical as they possibly can be, with workshop time taking more than 70% of the course. During the Total Air Conditioning and Refrigeration training course, you will, install, repair, fault find, adapt and commission on a variety of different equipment, because we believe the way to learn is to do it!! With ALL our courses we offer unbiased technical support and access to a wealth of knowledge and information upon completion. Once you’ve completed your course with Technique, you can be assured that our service doesn’t end there…

Our intensive 10, 15 or 20 day Total Air Conditioning and Refrigeration training courses have been structured to meet the ever increasing demands on industry to meet safety, environmental and legal requirements regarding installation, commissioning, service and maintenance of both refrigeration and air conditioning systems including the electrical aspects of installation dependent upon course selection. The first 10 days of the Total Air Conditioning and Refrigeration training course are mechanical only, the following 5 or 10 days are the electrical aspects, depending on which route you need to go down. The Total Air Conditioning and Refrigeration training courses are accredited with the City & Guilds 2079, BESA Pipework and Brazing – (commercial), along with an EAL Unit* – Maintenance of Refrigeration Systems from the EAL Certificate in Engineering Technology (QCF) qualification. (*Practical elements will be covered during the course with a Project booklet to be completed by the student with an element of self-study after the course completion for us to claim the Unit certification from EAL). Our Total Air Conditioning and Refrigeration training courses are designed to be as practical as they possibly can be, with workshop time taking more than 70% of the course. During the Total Air Conditioning and Refrigeration training course, you will, install, repair, fault find, adapt and commission on a variety of different equipment, because we believe the way to learn is to do it!! With ALL our courses we offer unbiased technical support and access to a wealth of knowledge and information upon completion. Once you’ve completed your course with Technique, you can be assured that our service doesn’t end there…

Any person who requires the minimum legal requirement to work on air conditioning and refrigeration equipment including air conditioning and refrigeration engineers and technicians, all plant engineers, apprentices, personnel concerned with the recovery, charging or disposal of refrigerants and new comers into the industry. F Gas Regulations training courses are designed for both experienced air-conditioning and refrigeration engineers and also candidates who are looking to cross train and gain qualifications in the air conditioning / refrigeration sector. This F Gas regulations qualification is to meet the legal requirements of EC Regulation 842/2006 (commonly known as the F Gas Regulations). The Certification Schemes are designed for operatives who install, service and repair refrigeration, air-conditioning and heat pump systems, and require the following skills: Safe handling of refrigerant techniques Pipework and Jointing skills Recovery of Refrigerants (restricted to small systems only) Intrusive and non-intrusive leak and performance checking Category 1 covers all aspects of installation, commissioning, servicing, maintenance, recovery and leak checking on all refrigeration, air-conditioning and heat pump systems in accordance with the F-Gas Regulation EC842/2006, regardless of the weight of refrigerant in the system. F Gas regulations Course subjects are: Pressure test and discharge to BSEN378 Charge a blended refrigerant Evaluate system performance to ensure competence (using rule of thumb, temperature, refrigerant state and pressure) Leak test to EC1516/2007 Fabricate and fit brazed and mechanical joints Uphold F-Gas records and log books. Handle refrigerant safely and dispose of rightfully Pressure Regulation compliance All candidates will be able to ensure systems are tight, efficient in their use of energy and meet the F-Gas legal requirement.

The F Gas Regulations course will suit any person who requires the minimum legal requirement to work on air conditioning and refrigeration equipment including air conditioning and refrigeration engineers and technicians, all plant engineers, apprentices, personnel concerned with the recovery, charging or disposal of refrigerants and new comers into the industry. F Gas Regulations training courses are designed for both experienced air-conditioning and refrigeration engineers and also candidates who are looking to cross train and gain qualifications in the air conditioning / refrigeration sector. This F Gas Regulations qualification is to meet the legal requirements of EC Regulation 842/2006 (commonly known as the F Gas Regulation). The Certification Schemes are designed for operatives who install, service and repair refrigeration, air-conditioning and heat pump systems, and require the following skills: Safe handling of refrigerant techniques Pipework and Jointing skills Recovery of Refrigerants (restricted to small systems only) Intrusive and non-intrusive leak and performance checking Category 1 covers all aspects of installation, commissioning, servicing, maintenance, recovery and leak checking on all refrigeration, air-conditioning and heat pump systems in accordance with the F-Gas Regulation EC842/2006, regardless of the weight of refrigerant in the system. Course subjects are: Pressure test and discharge to BSEN378 Charge a blended refrigerant Evaluate system performance to ensure competence (using rule of thumb, temperature, refrigerant state and pressure) Leak test to EC1516/2007 Fabricate and fit brazed and mechanical joints Uphold F-Gas records and log books. Handle refrigerant safely and dispose of rightfully Pressure Regulation compliance All candidates will be able to ensure systems are tight, efficient in their use of energy and meet the F-Gas legal requirement.

About this Virtual Instructor Led Training (VILT) The 5 half-day Piping Stress Engineering Virtual Instructor Led Training (VILT) course will systematically expose participants to: The theory and practice of piping stress engineering, with special reference to ASME B 31.1 and ASME B 31.3 Standards. The basic principles and theories of stress and strain and piping stress engineering, through a series of lessons, case study presentations, in-class examples, multiple-choice questions (MCQs) and mandatory exercises. Principal stresses and shear stresses which form the backbone of stress analysis of a material. Expressions for these quantities will be derived using vector algebra from fundamentals. Thermal stress-range, sustained and occasional stresses, code stress equations, allowable stresses, how to increase flexibility of a piping system, cold spring. The historical development of computational techniques from hand calculations in the 1950s to the present-day software. Training Objectives On completion of this VILT course, participants will be able to: Identify potential loads the piping systems and categorise the loads to primary and secondary. Determine stresses that develop in a pipe due to various types of loads and how to derive stress-load relationships, starting from scratch. Treat the primary and secondary stresses in piping system in line with the intent of ASME Standards B 31.1 and B 31.3 and understand how the two codes deal with flexibility of piping systems, concepts of self-springing and relaxation/shake down, displacement stress range and fatigue, what is meant by code compliance. Understand the principles of flexibility analysis, piping elements and their individual effects, flexibility factor, flexibility characteristic, bending of a curved beam and importance of virtual length of an elbow in the flexibility of a piping system. Learn stress intensification factors of bends, branch connections and flanges. Understand how the stresses in the material should be controlled for the safety of the piping system, the user and the environment. Examine how codes give guidance to determine allowable stresses, stress range reduction due to cyclic loading, and effects sustained loads have on fatigue life of piping. Confidently handle terminal forces and moments on equipment. Understand the supplementary engineering standards required to establish acceptance of the equipment terminal loads and what can be done when there are no engineering standard governing equipment terminal loads is available and learn the techniques of local stress analysis. Get a thorough understanding of the concepts and the rules established by the ASME B 31.1 and ASME B 31.3 Standards. Perform flange load analysis calculations based on Kellogg's Equivalent Pressure method & Nuclear Code method. Perform the same using a piping stress analysis software and check for flange stresses and leakage. Confidently undertake formal training of piping stress analysis using any commercial software, with a clear understanding of what happens within the software rather than a 'blind' software training and start the journey of becoming a specialist piping stress engineer.   Target Audience The VILT course is intended for: Recent mechanical engineering graduates who desire to get into the specialist discipline of Piping Stress Engineering. Junior mechanical, chemical, structural and project engineers in the industry who wish to understand the basics of Piping Stress Engineering. Engineers with some process plant experience who desire to progress into the much sought-after specialist disciplines of Piping Stress Engineering. Mechanical, process and structural engineers with some process plant experience who desire to upskill themselves with the knowledge in piping stress engineering and to become a Piping Stress Engineer. Any piping engineer with some pipe stressing experience in the industry who wish to understand the theory and practice of Piping Stress Engineering at a greater depth. A comprehensive set of course notes, practice exercises and multiple-choice questions (MCQs) are included. Participants will be given time to raise questions and participants will be assessed and graded based on responses to MCQs and mandatory exercises. A certificate will be issued to each participant and it will carry one of the three performance levels: Commendable, Merit or Satisfactory, depending on how the participant has performed in MCQs and mandatory exercises. Training Methods The VILT course will be delivered online in 5 half-day sessions comprising 4 hours per day, with 2 breaks of 10 minutes per day. Course Duration: 5 half-day sessions, 4 hours per session (20 hours in total). Trainer Your expert course leader is a fully qualified Chartered Professional Engineer with over 40 years of professional experience in Oil & Gas (onshore and offshore), Petrochemical and Mining industries in engineering, engineering/design management and quality technical management related to plant design and construction. At present, he is assisting a few Perth based oil & gas and mining companies in detail engineering, piping stress analysis, feasibility study and business development work related to plant design. He is a pioneer in piping stress engineering in Western Australia. His recent major accomplishments include the following roles and challenges: Quality Technical Support Manager of USD 54 billion (Gorgon LNG Project). This encompassed management of quality technical services connected with Welding, Welding Related Metallurgy, Non-Destructive Examination, Insulation /Refractory /Coating, AS2885 Pipelines Regulatory Compliance and Pressure Vessel Registration. Regional Piping Practice Lead and Lead Piping Engineer of Hatch Associates. In this role, he was responsible for providing discipline leadership to several mining projects for BHP Billiton (Ravensthorpe), ALCOA-Australia (Alumina), Maáden Saudi Arabia (Alumina), QSLIC China (Magnesium), COOEC China (O&G Gorgon). He was actively involved in the development of piping engineering practice in WA, including training and professional development of graduate, junior and senior engineers. This also includes the formation of the Piping Engineering Specialist Group. Lead Piping/Pipe Stress Engineer on ConocoPhillips' (COP) Bayu Undan Gas Recycle, Condensate production and processing platform. He was able to develop several novel design methodologies for the project and provided training to engineers on how to implement them. These methodologies were commended by COP and the underwriters of the project Lloyds Register of Shipping, UK. Creator of Piping Engineering Professional Course aimed at global engineering community. Professional Affiliations: Fellow, Institution of Mechanical Engineers, UK (IMechE) Fellow, Institution of Engineers, Australia (EA), National Register of Engineers (NER) Member American Society of Mechanical Engineers, USA (ASME) Honorary Life Member, Institution of Engineers, Sri Lanka (IESL)   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 about post training coaching support and fees applicable for this. Accreditions And Affliations

Acquire in-depth knowledge of heat exchanger design and cost-saving management with EnergyEdge's TEM & HTRI course. Join our virtual instructor-led training to stay ahead in the industry.

About this Training Course This course will begin with a presentation of topics to familiarize Process and Instrumentation Engineers with procedures and practices involved in the choice of sensors related to the measurement of temperature, pressure, level and flow in relation to single-phase flows. It will provide guidance on the optimum commercially available devices through a detailed comparison of their relative merits. At the heart of this course is sensor calibration which is a crucial element for these topics. The course will also examine the various types of flow control valve, including Globe, Slide, Needle, Eccentric plug and Ball valves and their characteristics in industrial application, while focusing on the problems of Cavitation and Flashing and methods to minimise or eradicate these issues. With the use of examples, industry case studies and a wide range of videos, this course will also cover all aspects of proportional (P), derivative (D) and integral (I) control. In particular, it will address the advantages and disadvantages of PI and PID control. It will also describe Cascade, Feed forward, Split Range, Override and Ratio Control techniques. Training Objectives By attending this course, participants will acquire the following knowledge and skills: Apply an in-depth knowledge to the measurement of temperature, pressure, level and flow as well as to the fluid mechanics of pipe flows Assess the advantages and disadvantages of the major flowmeter types including the differential pressure, rotary positive displacement, rotary-inferential, electromagnetic, ultrasonic and Coriolis mass flowmeters to determine the optimum choice for a given application Make a considered judgement of the choice of fluid level measurement devices Understand the various types of flow calibration, metering systems and provers Carry out tank measurement and tank calibration methods and to calculate net sellable quantities Discuss valve characteristics & trim selection and illustrate the process of control valve sizing Explain the terms Open and Closed loop Define Process Variable, Measured Variable, Set Point and Error Define Direct and Reverse controller actions Explain the terms Process Lag, Measurement Lag, Transmission Lag, and Response Lag and their effect on controllability Explain ON/ OFF Control and the inherent disadvantages Explain Proportional Control, Offset, Gain and Proportional Band and the advantages and disadvantages of Proportional only control Explain the fundamentals and operation principles of Integral (I) Action and the disadvantages of proportional plus integral control Explain the fundamentals and operation principles of Derivative (D) Action in conjunction with P action Describe the operating principles of a PID Controller and explain the applications and advantages of PID control Describe Cascade, Forward, Split Range and Ratio Control operation principles Target Audience This course will benefit instrumentation, inspection, control, custody metering and process engineers and other technical staff. It is also suitable for piping engineers, pipelines engineers, mechanical engineers, operations engineers, maintenance engineers, plant/field supervisors and foremen and loss control coordinators. Trainer Your expert course leader is a Senior Mechanical & Instrumentation Engineer (UK, B. Sc., M.Eng., Ph D) with over 45 years of industrial experience in Process Control & Instrumentation, Pumps, Compressors, Turbines and Control Valve Technology. He is currently a Senior Independent Consultant to various petrochemical industries in the UK, USA, Oman, Kuwait and KSA where he provides consultancy services on both the application and operational constraints of process equipment in the oil & gas industries. During his early career, he held key positions in Rolls Royce (UK) where he was involved in the design of turbine blading for jet engines, subject to pre-specified distributions of pressure. During this period and since, he has also been closely involved in various aspects of Turbomachinery, Thermodynamics and Fluid Mechanics where he has become a recognised authority in these areas. Later, he joined the academic staff of University of Liverpool in the UK as a Professor in Mechanical Engineering Courses. A substantial part of his work has been concerned with detailed aspects of Flowmetering - both of single & multiphase flows. He has supervised doctoral research students in this area in collaboration with various European flowmeter manufacturers. He joined Haward Technology Middle East in 2002 and was later appointed as European Manager (a post which has since lapsed) and has delivered over 150 training courses in Flowmeasurement (single- and multi-phase), Control, Heat Exchangers, Pumps, Turbines, Compressors, Valve and Valve Selection as well as other topics throughout the UK, USA, Oman and Kuwait. During the last two years, he has delivered courses with other training companies operating in the Far and Middle East. He has published about 150 papers in various Engineering Journals and International Conferences and has contributed to textbooks on the topics listed above. 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

Duration 3 Days 18 CPD hours This course is intended for Participants must possess a valid data centre training certificate such as CDCP or any other approved equivalent. Please submit a copy of your certificate for verification upon registration for the CTDC course. Overview After completion of the course the participant will be able to:1. Learn to properly comprehend and apply the ANSI/TIA-942 Standard requirements and guidelines2. Understand the proper intent of the ANSI/TIA-942 Standard to avoid both over- and/or under-investment3. Align the selection of redundancy levels and infrastructure investments to the business requirements.4. Understand the criteria and requirements for a high-availability data centre design and how to effectively establish the data centre from the perspective of the ANSI/TIA-942 Standard5. Understand how the ANSI/TIA-942 Standard relates to various worldwide standards This course, the participant will learn how to design an ANSI/TIA-942 compliant data centre. It will provide a clear understanding of the requirements of the ANSI/TIA-942 Standard and possible implementation variations. Introduction to Data Centre Facilities About the ANSI/TIA-942 Life of the ANSI/TIA-942 Standard Relation to other standards Architectural Electrical Mechanical Telecommunication Areas under scope High level redundancy definitions Redundancy options (N, N+1 etc.) Fault tolerant Concurrent maintainability Compartmentalisation Examples of redundancy levels Data Centre Space PlanningData Centre TopologiesRecommendations for Energy EfficiencyArchitectural Site selection Parking Multi-tenant building Building construction Vapor barrier Roofing Floor loading Raised flooring Suspended/drop ceiling Hanging load Seismic Building Security & Safety Security CCTV Staffing Bullet/ballistic proofing Lighting Safety - Signage Building and Room Access Security checkpoints Entry lobby Doors and windows Exit corridors Shipping and receiving areas Room/Area Design Requirements Administrative offices Security offce Operations centre Restroom and break room UPS/Battery rooms Generator and fuel storage area Computer room Electrical Utility power - Substation - Feed requirements - Self-generation HT/HV switch gear Generator and fuel supply LT/LV switch gear - ATS - Alternatives to ATS UPS and batteries PDU STS Grounding Surge protection EPO Central power monitoring Load banks Testing Equipment maintenance - Preventive maintenance - Facility training programs Mechanical Environmental design - Temperature and humidity requirements - Contamination - Sources - Clean air - Pressurisation - Radio sources - Vibration - Water ingress Water cooled systems - Heat rejection - Chilled water system - Condenser water? - Make up water Air cooled systems HVAC control systems Plumbing - Pipe routing Fire suppression Water leak detection Telecommunications Network topology Redundancy level design Media and connectors Cabling pathways Detailed cabling design considerations Administration and labeling Cable testing Data centre fabrics Exam: Certified TIA-942 Design Consultant Actual course outline may vary depending on offering center. Contact your sales representative for more information.

Duration 5 Days 30 CPD hours This course is intended for The primary audience for this course is any IT, facilities or data centre professional who works in and around the data centre and has the responsibility to achieve and improve efficiency and environmental sustainability, whilst maintaining the availability and manageability of the data centre. Overview After completion of the course the participant will be able to: Understand the impact of data centres on the environment Describe the various environmental/energy management standards Understand the purpose and goals of the legally binding international treaties on climate change Implement various sustainable performance metrics and how to use them in the data centre environment Manage data centre environmental sustainability using international standards Set up the measurement, monitoring and reporting of energy usage Use power efficiency indicators in a variety of data centre designs Use best practices for energy savings in the electrical infrastructure and in the mechanical (cooling) infrastructure Use best practices for energy savings for the ICT equipment and data storage Understand the importance of water management and waste management Understand the different ways to use sustainable energy in the data centre Get practical tips and innovative ideas to make a data centre more sustainable The CDESS© course is aimed at providing knowledge of the standards and guidelines related to environmental sustainability, and how to move your data centre (existing or new) to a more environmentally sustainable design and operations. Impact of Data Centres on the Environment Predictions in 2010 Current situation Outlook and commitments What is Environmental Sustainability The importance of sustainability Senior management commitment Environmental sustainability framework Sustainability policies Performance standards and metrics Information policies Transparency Awareness Service charging models Environmental Management Environmental sustainability framework (ISO 14001) Standards and guidelines ? ISO 50001 / ISO 30134 Measurement and categories Baselining Trend analysis Reporting Power Effiðciency Indicators Various eðfficiency indicators Power Usage Effectiveness (PUE) PUE measurement levels Factors affecting PUE Measurement points and intervals PUE in mixed source environments Measuring PUE in a mixed-use building PUE reporting Impact of PUE after optimising IT load Electrical Energy Savings (Electrical) Identifying the starting point for saving energy Sizing of power DC power Generators UPS systems Power Factor (PF) Energy savings on lighting Electrical Energy Savings (Mechanical) Energy savings on the cooling infrastructure Temperature and humidity setpoints Various energy eðcient cooling technologies Energy savings on the airflow Liquid cooling Energy reusage PUE, ERE/ERF and Control Volume Electrical Energy Savings (ICT) Procurement IT equipment energy eðfficiency ITEEsv, SMPE, SMPO IT equipment utilisation Server virtualisation Open compute project Electrical Energy Savings (Data Storage) Data management Data storage management Data storage equipment effiðciency Water Management Water Usage Effectiveness (WUE) Improving WUE Water usage at the power generation source Energy Water Intensity Factor (EWIF) Waste Management Waste management policies Life-cycle assessment (Cradle to the grave) 3 R?s for waste management Reduce Reuse Second-hand market Recycle Sustainable Energy Usage Sustainable energy sources Power purchase agreements Energy attribute certificates Renewable Energy Factor (REF) Matching renewable energy supply and demand Sustainable energy storage Carbon trading Automated Environmental Management Systems Use of AI and machine learning Load migration Data Centre Infrastructure Management (DCIM) solutions