How to find a job with Process Control skills

1. Sensor Manufacturing and Process Control

"Sensor Manufacturing and Process Control" can also be taken for academic credit as ECEA 5343, part of CU Boulder’s Master of Science in Electrical Engineering degree. This is our fourth course in our specialization on Embedding Sensor and Motors. To get the most out of this course, you should first take our first course entitled "Sensors and Sensor Circuits", our second course entitled "Motor and Motor Control Circuits", and our third course entitled "Pressure, Force, Motion, and Humidity Sensors". Our first course gives you a tutorial on how to use the hardware and software development kit we have chosen for the lab exercises. Our second and third courses give you three hands-on lab experiments using the kit. This third course assumes that you already know how to use the kit. You will learn about sensor signal characterization and manufacturing techniques and how to optimize the accuracy of sensors. You will also learn about more advanced sensors, proportional-integral-derivative (PID) control, and how this method is used to give you a closed loop sensor feedback system. After taking this course, you will be able to: ● Understand how sensor manufacturers characterize and calibrate their sensors. ● Tune a PID control loop and access the PID control function of the Cypress PSoC development kit for a motor control application. ● Understand manufacturing methods used to build electro-mechanical and micro-machined sensors. You will need to buy the following components to do the two course projects based on the videos in this module. Note that if you have already purchased the PSOC 5LP PROTOTYPING KIT, you do not need to buy it again. These parts may be purchased off the Digikey web site, www. Digikey.com. Or, you may obtain the specs from the site, and purchase them elsewhere. All are quantity one except for N107-ND where you need three, and 493-15371-ND where you need two. 428-3390-ND P14355-ND FQU13N10LTU-ND N107-ND 1N5393-E3/54GICT-ND RNF14FTD1K00CT-ND P0.62W-1BK-ND 493-15371-ND Additional equipment needed: • Wire - various gauges and lengths • Breadboard • Oscilloscope – suggested models are: o PICOSCOPE 2204A-D2 available on www.digikey.com or o Digilent 410-324 | OpenScope MZ available on www.newark.com Depending on your budget, you can also investigate these models: o Hantek HT6022BE20MHz - https://www.amazon.com/dp/B009H4AYII o SainSmart DSO212 - https://www.amazon.com/dp/B074QBQNB7 o PoScope Mega50 USB - https://www.robotshop.com/en/poscope-mega50-usb-mso-oscilloscope.html o ADALM2000 - https://www.digikey.com/en/products/detail/analog-devices-inc./ADALM2000/7019661...

2. Process Control & PID Controllers: Principles Design Tuning

3.8

(67)

---------------------MAJOR COURSE UPDATE: We have added a quiz at the end of each section to help you test your knowledge and emphasize the key learning points. The quiz includes: True/False questionsMulti-choice questionsImages, cross-sectionnal viewsSolved problemsand much more... When you think you've got a good grasp on a topic within the course, you can test your knowledge by taking the quiz. If you pass, wonderful! If not, you can review the videos and notes again or ask us for help in the Q & A section.---------------------Control in process industries refers to the regulation of all aspects of the process. Precise control of level, temperature, pressure and flow is important in many process applications. Designed around a series of practical examples which we work through to a solution, this valuable course is an essential guide to a complete understanding of: functioningdesigntuning of process controls and PID* controllersUseful reference data, technical recommendations, field observations and numerous process control schemes are presented in an-easy-to-use format. The course also cautions the process control engineer that the performance of a properly designed process control system can be severely compromised when used in conjunction with incorrect PID* controller settings. PID* controller tuning guidelines and their rationale according to the Ziegler Nicholls method, as well as some precautions, are offered to ensure optimum performance. Typical tuning examples have been included to assist in understanding how specific formulae are applied. In addition, you will find at the end of each section a technical quiz to test your knowledge. If you pass: wonderful! If not, you can watch the video lectures again or ask us for help in the Q & A section. So with no further ado, check out the free preview videos and the curriculum of the course and we look forward to seeing you in the first section. Thank you for your interest in our online courses. We hope to see you there. WR TrainingSpread the wings of your knowledge* When PID is mentioned, it is with reference to Proportional, Integral and Derivative control actions...

3. Introduction to process control and instrumentation

4.4

(2,479)

---------------------COURSE UPDATE: We have added quizzes to help you test your knowledge and emphasize the key learning points. The quizzes include: True/False questionsMulti-choice questionsImages, cross-sectionnal viewsSolved problemsand much more... When you think you've got a good grasp on a topic within the course, you can test your knowledge by taking the quizzes. If you pass, wonderful! If not, you can review the videos and notes again or ask us for help in the Q & A section.---------------------Dear student, Control in process industries refers to the regulation of all aspects of the process. Precise control of level, temperature, pressure and flow is important in many process applications. This course introduces you to control in process industries, explains why control is important, identifies different ways in which precise control is ensured and illustrates the different set of instrumentation used to perform measuring tasks for temperature, pressure, flow and level. The course includes extensive graphics, cut sections, process schemes and 3D animations to give you a virtual practical exposure on process control and instrumentation. The objective of this course is twofold:1. Break down for you all the process control and instrumentation principles into easily digestible concepts like feedback control, split range, controller tuning, transmitters, differential pressure gauges, etc...2. Illustrate through 3D animations and cut-sections the main control instrument devices to measure temperature, pressure, flow and level like thermocouples, capacitive pressure gauges, coriolis flowmeters, etc... As you proceed through the course, answer the questions in the attached pdf quiz files. These files are available at the end of each section. We strongly advise you to do so before moving on in the course. Quiz exercises help you measure your progress toward meeting each section's learning objectives. If you pass, wonderful. If not, you can review the videos and notes again or ask us for help in the Q & A section. So with no further ado, check out the free preview videos and the curriculum and we look forward to see you in the first section. Also remember, as enrolled student you will have unlimited access to this material and one-on-one instructor support. So feel free to interact with us by email or simply ask us for help in the Q & A section. It will be our pleasure to help you and provide assistance. Hope to see you thereCheers, WR TrainingSpread the wings of your knowledge...

4. Process Control & Instrumentation 16 Hour Masterclass

4.5

(82)

Welcome to this 16 hour masterclass on process control and instrumentation. This valuable masterclass is organized into 6 parts: Part 1: Process Control and PID* ControllersPart 2: The Final Control Element - Control Valves, Actuators and PositionersPart 3: Practical Examples of Temperature, Pressure, Flow and Level ControlsPart 4: Practical Examples of Process Equipment Controls (Heat Exchangers, Pumps, Compressors, Reactors, Piping Systems…)Part 5: Safety Instrumented Systems (SIS), Interlocks and AlarmsPart 6: Instrument Devices For Temperature, Pressure, Flow and Level MeasurementPart 1 is an essential guide to a complete understanding of process control principles and PID* controllers design and tuning. In this first module, we will break down for you all the process control principles into easily digestible concepts, like feedback controls, open loops, split range controls, self-acting controls. Useful reference data, technical recommendations, field observations and numerous process control schemes are presented in an-easy-to-understand format. This module also cautions the process control engineer that the performance of a properly designed process control system can be severely compromised when used in conjunction with incorrect PID* controller settings. In this regard, PID* controller tuning guidelines and their rationale according to the Ziegler Nicholls method are offered to ensure optimum performance. Typical tuning examples have been included to assist you in understanding how specific formulae are applied. Part 2 focuses on the final control element of any process control system, that is the valve-actuator-positioner assembly. In this second module, you will find valuable insights into the working principles and construction details of the following control elements: Control valves (sliding stem and rotary / fast opening, linear and equal percentage)Mixing and diverting 3-port control valvesDiaphragm actuators (air-to-push-up and air-to-push-down)Piston actuators (Single Acting and Double Acting / Fail Open (FO) and Fail Closed (FC))Rack-and-pinion actuators (Single Acting and Double Acting / Fail Open (FO) and Fail Closed (FC))Scotch Yoke actuators (Single Acting and Double Acting / Fail Open (FO) and Fail Closed (FC))Pneumatic positioners (force balance, motion balance)Digital positionersI/P converters... The module then proceeds through a series of process examples and solved problems that require you to: Dismantle and assemble various types of control valves and actuators using 3D and 2D modelsIdentify the net effect of various control valve/actuator assemblies (direct acting, reverse acting, fail open, fail close...)Convert an actuator from Single Acting to Double Acting configuration and vice versaConvert a control valve/actuator assembly from a Fail Closed (FC) to a Fail Open (FA) configuration and vice versaConstruct the installation curve for a control valveDetermine flowrate and pressure drop through control valves for different valve liftsMatch the valve characteristics to the given applicationExamine the effect of selecting a control valve larger than necessaryExamine the effect of differential pressure on the valve lift and actuator operationDetermine when a positioner should be fitted... This will help you develop the necessary skills to ensure your process control systems run smoothly. Part 3 focuses on fluid properties control. This module identifies different ways in which precise control of temperature, pressure, flow and level is ensured. It provides real industrial examples of process control loops and the keys to interpret them in high quality video lectures. Both self-acting and modulating types of control are discussed in exquisite details. Part 4 introduces you to advanced process control in process industries. It identifies different ways in which precise control is ensured for the main process equipment such as chemical reactors, pumps, compressors, fired heaters and heat exchangers just to name a few. The numerous examples outlined in this module are taken from petroleum refineries, chemical and steam boiler plants, making the knowledge gained in this section extremely valuable to practicing engineers and technicians. Part 5 discusses the important concepts of Safety Instrumented Systems (SIS), Alarm Systems and Interlocks. It presents their anatomy, their requirement, their functions and how they are represented in engineering drawings such as Piping & Instrumentation Diagrams. Part 6 illustrates through 3D animations and cross-sectional views the main control instrument devices to measure temperature, pressure, flow and level. These instruments include thermocouples, RTDs', Bourdon tube pressure gauges, Coriolis flowmeters, level radars and capillary systems just to name a few... As you proceed through the masterclass, answer the 400+ question quiz to test your knowledge and emphasize the key learning points. The quiz includes: True/False questionsMulti-choice questionsImages, cross-sectional viewsSolved problemsAnd much more... You have our promise that at after completing this masterclass, you will be an advanced process control professional, you won't be a process control expert but you will be prepared to become one if that is what you want and persist to be. In fact, the knowledge that you will gain will help you understand all process control loops, instrumentations and safety systems so that you can draw the correct information from them. This will set you apart from your peers, whether you are a graduate student, a practicing engineer or a manager, and will give you an edge over your competitors when seeking employment at industrial facilities. So with no further ado, check out the free preview videos and the curriculum of the course and we look forward to seeing you in the first section. Hope to see you thereWR TrainingSpread the wings of your knowledge------------* When PID is mentioned, it is with reference to Proportional (P), Integral (I) and Derivative (D) control actionsSafety noteSizing, selection, installation and tuning of process control systems (control valves, actuators, controllers, sensors, wiring...) should not be based on arbitrarily assumed conditions or incomplete information. Merely having a control system does not make a process safe or reliable. Now, while it is obviously impossible to address every installation mistake ever made, we have included a valuable summary of the most frequent installation mistakes encountered in the field. We are confident that this valuable masterclass will help you contribute to the safety of your facility, your fellow workers and yourself...

5. Advanced Process Control & Safety Instrumented Systems SIS

4.5

(783)

Welcome to this online course on advanced process control. Control in process industries refers to the regulation of all aspects of the process. Precise control of level, temperature, pressure and flow is important in many process applications. This course introduces you to advanced process control in process industries, explains why control is important and identifies different ways in which precise control is ensured for the main process equipment such as chemical reactors, pumps, compressors, fired heaters and heat exchangers just to name a few. The course also introduces you to Safety Instrumented Systems SIS, Alarm Systems and Interlocks: their anatomy, their requirement, their functions and how they are represented in engineering drawings such as Piping & Instrumentation Diagrams, more commonly referred to as P & ID's. The course includes extensive graphics and industrial process control schemes for each major piece of equipment found in the process industry, as well as numerous Safety Instrumented Systems that will be broken down for you into easily digestible concepts. The knowledge gained in this course will help you to understand all process control loops and safety systems so that you can draw the correct information from them. Finally, included in the course are access to numerous downloadable resources, real industrial examples of process control and the keys to interpret them in high quality video lectures. You will be able to practice and become even more proficient with these bonus items that you will find throughout the course. So with no further ado, check out the free preview videos and the curriculum of the course and we look forward to seeing you in the first section. Hope to see you thereWR TrainingSpread the wings of your knowledge...

6. Statistical Process Control (SPC) Using Microsoft Excel

4.6

(1,425)

Statistical Process Control (SPC) Using Microsoft Excel is the one course you need to learn how to harness, analyze and report your manufacturing process data in a way that drives improvement within your organization. This course is divided into 4 major sections: Basic Statistical Concepts: Don't worry if you've never studied statistics or are a novice using Excel. This course starts at the beginning. In this section, I explain fundamental concepts that you will use throughout this course and your career including Measures of Central Tendency, Measures of Dispersion and the different types and scales of data. Not only do I explain these concepts on paper, but I'll take you into Excel and show you how to QUICKLY calculate the statistics you need. Pareto Analysis: Most people do not realize the power of the Pareto Distribution. In this section, I will show you how to apply the so called 80/20 Rule in remarkably expedient and innovative ways. I will also introduce you to Excel's Pivot Tables, which when combined with Pareto Analysis, form a powerful decision making tool for allocating your organization's capital, people and improvement effort. Control Charting: Often considered the backbone of statistical process control, control charting allows you to graphically depict and then analyze your process and quality data. Control charting calculates the normal limits for any process, then makes obvious the trends and nuances in your process. Not only will I explain the nut and bolts of 7 different control charts for both variable and attribute data, but I will also walk you through the secrets of interpreting their results. You will also receive excellent reference tools and Excel reports you can use in your own improvement projects. Regression Analysis: Regression Analysis is a remarkably powerful tool for defining the relationship between two or more variables, and then providing a formula you can use to make predictions about your own process. This section offers you the fundamentals of this immense family of statistical processes by detailing Simple Linear and Multiple Linear Regression analysis. These tools will not only allow to you analyze the inputs and outputs of your manufacturing processes, but also serve as a stepping stone into more advanced studies of the topic. In this course, I provide you with all the theory, applications, Excel Worksheets and real life examples you need to take your analytical and problem solving skills to a whole new level. And if you're preparing to take your ASQ Certified Quality Engineer, Certified Quality Technician, Certified Six Sigma Green Belt, Certified Six Sigma Black Belt exams, this class is an excellent starting point to develop the quality statistics skills you'll need to succeed. Sign up today!! This course is best out there for any quality professional who wants to excel. - Sachin K. This is buy far the best Course I have taken on Udemy! Very well structured and provided a comprehensive overview on the subject. A gem on Udemy! - Greg S...

7. Sizing valves and control valves for the process industry

4.6

(81)

---------------------MAJOR COURSE UPDATE: We have added a quiz at the end of each section to help you test your knowledge and emphasize the key learning points. The quiz includes: True/False questionsMulti-choice questionsImages, cross-sectionnal viewsSolved problemsand much more... When you think you've got a good grasp on a topic within the course, you can test your knowledge by taking the quiz. If you pass, wonderful! If not, you can review the videos and notes again or ask us for help in the Q & A section.---------------------Designed around a series of practical examples which we work through to a solution, this valuable online course is an essential guide to understanding the valve sizing procedure. This understanding is a prerequisite for a successful operation of your plant and piping system. In this course, we will present a step-by-step sizing methodology. We will show you how to proceed in the sizing of a valve in the daily practice, how to determine the flow coefficient (Cv) when selecting a control valve size, how to predict the maximum flow rate that a selected valve will pass or how to determine the pressure differential that a selected valve will exhibit, just to name a few... You will learn from our industrial experience what we wrongly calculated during project startup, debottlenecking and commissioning. This should undoubtedly help you minimize the mistakes in the sizing and selection of your valves. Included in this course is access to a valuable Valve Sizing Excel Spreadsheet. This tool will help you perform all the calculations that we will discuss further ahead in the course. It has all the sizing equations, numerical constants and other parameters built right in. The Valve Sizing Excel Spreadsheet provides well organized technical data in form of spreadsheet calculations indispensible for anyone involved in the sizing of valves. It presents formulae and data for: Valve flow coefficients CvFlow of fluids through valvesPressure drop through valves and attached fittingsValve Reynolds Number calculationsPredicting maximum flow through valves in choked conditionsRepresentative values of valve capacity factorsAnd much more... The spreadsheet includes two worksheets: Sizing for liquids (incompressible fluids)Non vaporizing flow conditionsChoked flow conditionsSizing for vapors and gases (compressible fluids)So as you can see here, detailed technical descriptions and basic step-by-step instructions will be provided to you along with practice sessions, quizzes, a valuable Valve Sizing Spreadsheet and numerous downloadable resources, to emphasize the key learning points. So with no further ado, check out the free preview videos and the curriculum of the course and we look forward to seeing you in the first section. WR TrainingSpread the wings of your knowledge---------------IMPORTANT NOTES: VALVE SIZING SPREADSHEETWe assume that Microsoft Excel is installed on your computer and that you have basic knowledge of using ExcelThis Valve Sizing Excel Spreadsheet includes Visual Basic for Application function subroutines (VBA). Macros must be enabled for them to workDISCLAIMERThe Valve Sizing Excel Spreadsheet is provided by WR Training as is and any express or implied warranties, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose are disclaimed. In no event shall the Copyright owner or contributors be liable for any direct, indirect, incidental, special, exemplary, or consequential damages (including, but not limited to, procurement of substitute goods or services, loss of use, data, or profits, or business interruption) however caused and on any theory of liability, whether in contract, strict liability, or tort (including negligence or otherwise) arising in any way out of the use of this spreadsheet, even if advised of the possibility of such damage...