2018-19 Instrumentation, Controls & Electrical Training Guide

INSTRUMENTATION, CONTROLS & ELECTRICAL3Instrumentation,Controls and ElectricalSystems for FacilitiesEngineers – ICE21Electrical EngineeringFundamentals forFacilities Engineers – E3Instrumentation andControls Fundamentalsfor Facilities Engineers– IC3FOUNDATIONFOUNDATIONFOUNDATION5-DAYThis foundation-level course provides anintroduction and overview of electrical systems,instrumentation, process control, and control/safety systems typically encountered in oil andgas facilities. The focus is to understandterminology, concepts, typical equipmentconfigurations, and common pitfalls in order toimprove communication with electrical and I&Cprofessionals. This course covers similar contentto our E3 and IC3 courses, but at a moreconceptual level. This course is not aprerequisite for taking E3 or IC3, but rather areplacement for those that are not able to takeboth E3 and IC3.D E S IG NE D F O RProcess, chemical, and mechanical engineers,(i.e. non-instrumentation and non-electricaldisciplines), as well as other technical and nontechnical professionals with little or nobackground in IC&E systems. Electrical andInstrumentation Engineers should consider E3and IC3 for more in-depth coverage.YOU W IL L L E A R N Fundamentals of electricity, such as voltage,current, resistance, power factor, and single/three phase power systems Electrical specifications, such as voltageselection, load lists, and power How to read one-line diagrams andunderstand the function of the componentsof power distribution, including transformers,switchgear, MCCs, VFDs, and powerdistribution The function and considerations ofinfrastructure components, such as cable,conduit, cable tray, and duct banks Awareness of the concepts behindclassification of hazardous locations andequipment specifications Safety risks and mitigation strategies forpower systems, including short circuit andovercurrent protection, ground faults, shockhazards, and arc flash Fundamentals of control systems, sensors,controllers, and final elements Key requirements for instrument specificationssuch as accuracy, signal selection, processconditions, material compatibility, installationconsiderations, capabilities and limits, andrelative cost Basics of specification of shutdown andcontrol valves Control system functions, limitations, andarchitectures, including PLC, DCS, SIS, RTU,and SCADA; common networking systems,including Ethernet, Modbus and Fieldbus Exposure to the typical documentationand drawings necessary for the design,specification, installation, operation andmaintenance of electrical, instrumentation andcontrol systemsCOUR S E C O N T E N TFundamentals of electricity Control systemfundamentals Field measurement and controldevices Hazardous area classification for oiland gas applications Programmable electronicsystems (PLC, DCS, SIS, SCADA) and more.2018-19 Schedule and Tuition (USD)HOUSTON, US24-28 SEPT 20183-7 DEC 20183-7 JUNE 20192-6 DEC 2019KUALA LUMPUR, MYS 19-23 AUG 2019LONDON, UK1-5 APR 2019 4240 4240 4325 4325 5460 5035 VAT5-DAYThis course applies fundamental electricalengineering principles to oil and gas facilities.The course is designed for Facilities Engineerswho interface with electrical systems, andprovides practical insight and development ofnew Facilities Electrical Engineers. Through theuse of individual and group problem solving,attendees will learn about power transformers,motors, generators, one-line diagraminterpretation, protection and coordination ofelectrical equipment, site and standbygeneration, electrical safety, and hazardous areasidentification. Participants will gain a betterunderstanding of electrical power systems in oiland gas facilities. This course is a more in-depthversion of the content of ICE21 and ICE21 is nota prerequisite for taking this course.Those facilities personnel who interface withfacility electrical power systems, includingproject engineers, operation leads,instrumentation, controls personnel, andelectrical engineers who are new to electricalpower systems within oil and gas facilities. Fundamental concepts of electricity includingvoltage, current, resistance, power, inductance,capacitance, and power factor The key components of facilities electricpower distribution, which include circuitarrangements, low and medium voltageswitchgear, and single-phase and three phaseschemes Transformer operation, components, turns andvoltage ratios, losses, efficiency, rating, andconnections The difference between direct current,induction and synchronous current motors,motor enclosures, and how to select, start,protect, and control motors The principles of protecting electricalequipment, including time current curves,fuses, circuit breakers, and coordination The purposes and sizing criteria for backuppower, including generators and UPS powersystems The considerations and sizing criteria for onsite power generation, which includes standby,prime, peak, and co-generation What grounding and bonding systems are,with an overview of ignition sources, shockprotection, separately derived systems, andsubstation grounding The concepts, terminology and applicationof hazardous area classification standards,equipment protection methods, andinstallation requirements for NEC and IECprojectsC OU RSE C ON T EN TFundamentals of insulation and conduction Direct current, alternating current Transformerspower and instrument Motors induction andsynchronous Power distribution Systemprotection and coordination Standby powersystems Power generation Variable speeddrive principles Grounding, bonding, andelectrical safety Hazardous area identificationHOUSTON, USORLANDO, US11-15 FEB 201922-26 OCT 201821-25 OCT 2019 4325 4290 43705-DAYFacilities and Project Engineers as well as newlygraduated Electrical, Controls and InstrumentEngineers (0-5 yrs.) with a need to improve basicunderstanding of instrumentation and controlsystems within oil and gas facilities.Y OU WILL LEA RNDESIGNED FOR Operating principals and specification criteriafor field measurement devices including level,pressure, temperature, and flow Final elements and actuators including controlloops, control valves, shutdown valves,actuators, and transducers P&ID symbols and instrument tags, loop andlogic diagrams, pitfalls and best practices,ISA symbology, and creation of instrumentand I/O lists Signal types and wiring requirements foranalog/discrete inputs and outputs as wellas other signals such as thermocouple, RTD,pulse, and digital communications Typical control system functions, limitations,and architectures for PLC and DCS systemsincluding programming methods such asladder logic and function block Process control basics with an emphasison control loops, types, and configurationsfor common oil and gas process equipmentsuch as separators, pumps, distillationtowers, filters, contactors, compressors, heatexchangers, and fired heaters Understanding of the PID algorithm, looptuning, and advanced process controltechniques such as feed forward, cascade,selective, and ratio control Supervisory Control and Data Acquisition(SCADA) Systems to include telemetry, RTUs,internet, and web based communications Common networking systems includingEthernet, Modbus, and Fieldbus Risk mitigation, technologies, and architectureof Safety Instrumented Systems (SIS) The concepts, terminology, and applicationof hazardous area classificaton standards,equipment protection methods, andinstallation requirements for NEC and IECprojectsYOU WI L L L EARNINTERMEDIATEThis workshop provides engineers andtechnicians with the basic theoretical andpractical understanding of PLC and SCADAsystems. It traces the evolution of the PLC as anintelligent ‘black box’ replacement for the relaypanel and how, with the advent of moderncommunications architectures, it may becombined with Supervisory Control and DataAcquisition (SCADA) systems to allow standalone control systems to be configured.Throughout the workshop, participants will learnthrough active participation using exercises,questionnaires, and practical PC-basedsimulation (LogixPro), covering: basic ladderlogic programming; hardware diagnostics; andimplementation of various communicationstrategies. Participants will also examine thebasic requirements of a safety PLC and thevarious voting system architectures required tomeet different Safety Integrity Levels (SILs).DES IGNED FORDESI GN ED F OR2018-19 Schedule and Tuition (USD)5-DAYThis course applies fundamental instrumentationand control engineering principles to oil and gasfacilities design and operation, and is designedto accelerate the development of new FacilitiesInstrumentation and Control Engineers. Throughthe use of individual and group problem solving,attendees will learn about field measurementdevices, valves and actuators, documentation,programmable logic controllers, power supplies,PLC, SCADA, DCS, SIS, hazardous areas, andinstallation methods. This course is a more indepth version of the content of ICE-21 and ICE21is not a prerequisite for taking this course.PLC and SCADATechnologies – IC71COURS E CONTENTFundamentals of control signals and wiring Control system basics and more.This workshop is specifically tailored for anypersonnel who are responsible for designing,selecting, sizing, specifying, installing, testing,operating, and maintaining programmable logiccontrollers (PLCs) and supervisory (SCADA)systems. This could include facilities, process,chemical, electrical, instrumentation,maintenance, and mechanical engineers andtechnicians.YOU WILL LEARN H O W TO Describe the fundamental principles of thePLC Identify the basic components Write a ladder logic program Explain the basics of advanced programmingaccording to IEC 61131-3 Compare different methods of analogprocessing Apply common-sense installation practices Examine the different components of a SCADAsystem Describe the basic principles of serialcommunications Evaluate the requirements for PLC-to-SCADAcommunications Distinguish the specific requirements of thePLC in safety-related applicationsCOURSE CONTE N TIntroduction to control systems SCADA versusDCS PLC environmental enclosures Processing and scanning Digital processing Analog processing Installation practices Interference or noise reduction Cable spacingand routing Earthing and grounding Binaryand hexadecimal numbering systems The IEC61131-3 standard Ladder logic diagrams Functional block diagrams Derived functionblocks Structured text Instruction lists Sequential function chart SCADA basics SCADA set-up and simulation Systemarchitecture Communication strategies Asynchronous transmission Coding The RS232 standard The RS 485 standard Modbus Safety PLCs Voting system architectures2018-19 Schedule and Tuition (USD)DENVER, USHOUSTON, USLONDON, UK 1.918.828.2500 petroskills.com 1.800.821.5933 (toll free North America)8-12 JULY 201912-16 NOV 201818-22 FEB 201918-22 NOV 201910-14 SEPT 201819-23 AUG 2019 4320 4240 4325 4325 4890 VAT 5035 VAT2018-19 Schedule and Tuition (USD)HOUSTON, US23-27 SEPT 2019 4425Any course is available inhouse at your location. 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INSTRUMENTATION, CONTROLS & ELECTRICAL4Valve and ActuatorTechnologies – IC72Flow and Level CustodyMeasurement – IC73Practical PID Controland Loop Tuning – IC74Risk Based ProcessSafety Management– 5-DAYThis workshop provides a total in-depth insightinto valve and actuator technology, covering:control valves, check valves, shut-off valves,solenoid valves, and pressure relief valves. Amethodology is presented to ensure the optimumselection of size, choice of body and trimmaterials, components, and ancillaries. Whilststudying both liquid and gas valve sizing,delegates will also learn the correct proceduresfor calculating the spring ‘wind-up’ or ‘bench set’.Maintenance issues also include: testing fordead-band/hysteresis, stick-slip, and nonlinearity; on-line diagnostics; and signatureanalysis. Throughout the workshop, participantswill learn through active participation usingexercises, questionnaires, and practical sessionscovering: systems choice; basic sizingcalculations; computer-based sizing; andmaintenance diagnostics.DES IG NE D F O RFacilities, chemical, electrical, instrumentation,maintenance, and mechanical engineers andtechnicians involved in designing, selecting,sizing, specifying, installing, testing, operatingand maintaining shutoff, pressure relief, andcontrol valves.YO U W IL L L E A R N H O W TO Compare the major technologies used in thefinal control element Calculate the valve flow coefficient Cv Perform flow and system pressure head losscalculations Contrast the different types of control, shutoff, and check valves Describe the principles of cavitation controland noise reduction Select optimum materials of construction toavoid corrosion and erosion Identify the correct requirements for trimselection Differentiate between inherent and installedcharacteristics Identify ANSI/DN pipe sizes and pressureratings Explain the control valve seat leakageclassifications Evaluate the optimum valve-actuatorcombination Apply on-line valve testing and diagnosticsfor deadband and hysteresis, stick-slip, andnon-linearity Examine the principles of preventivemaintenance through the application ofsignature analysis Perform a bench set and calculate actuatorspring wind-up Pick the correct positioner using our set ofguidelinesC OUR S E C O N T E N TChoked flow Pressure recovery Flashingand cavitation Seat leakage Sizing forliquids and gases Valve construction Cavitation control and noise reduction Valvetypes Valve trim and characterization Valveselection Actuators and positioners Valvetesting and diagnostics Maintenance andrepair2018-19 Schedule and Tuition (USD)HOUSTON, US30 SEP-4 OCT 2019 44255-DAYThis course is designed to acquaint users withthe problems and solutions for high accuracytransfer of liquid and gas petroleum productsfrom supplier to customer. These needs havebeen brought about by major changes inmanufacturing processes and because of severaldramatic circumstantial changes such as: theincrease in the cost of fuel and raw materials; theneed to minimize pollution; and the increasingpressures being brought to bear to adhere to therequirements for health and safety.DESI GN ED FORThis workshop is specifically tailored for anypersonnel who are, or will be, responsible fordesigning, selecting, sizing, specifying,installing, testing, operating, and maintaininginstrumentation related to the field of custodylevel and flow transfer measurement. This couldinclude facilities, process, chemical, electrical,instrumentation, maintenance, and mechanicalengineers and technicians.YOU W I LL L EARN H OW TO Recall the basics of fluid mechanics Identify the fundamental problems related touncertainty Compare the different methods of measuringflow in the oil and gas industries Describe the various methods of levelmeasurement Compare the different methods used to derivestrapping tables Evaluate the different custody transferstandards in use today Contrast the methods used in flow calibration Identify the different types of prover systems Explain the methodology used in truckcustody transfer Examine the challenges regarding pipelines Describe the basics of leak detection Analyze the methodology for monitoring andcontrolling production losses Evaluate and compare the problems andsolutions associated with the measurement ofNGL, LPG, and LNGC OU RSE C ON T EN TFluid mechanics Flowmeter classification Uncertainty analysis Flow measurement Turbine Positive displacement Ultrasonicflowmeters Coriolis mass flowmeters Levelmeasurement Buoyancy tape systems Hydrostatic pressure Ultrasonic measurement Radar measurement Flow calibration Terminal custody transfer Tank managementsystems Lease automatic custody transfer Truck and rail custody transfer Pipelineconsiderations Fugitive emissions Leakdetection Real time transient model Losscontrol systems Custody transfer sampling Monitoring and con

This course applies fundamental instrumentation and control engineering principles to oil and gas facilities design and operation, and is designed to accelerate the development of new Facilities Instrumentation and Control Engineers. Through the use of individual and group problem solving, attendees will learn about field measurement