6 Best Piping Courses For Beginners in 2024
Embarking on a career in piping demands both precision and a comprehensive understanding of the intricate systems that form the backbone of various industries. Whether you're aspiring to become a piping engineer or designer or looking to enhance your skills in this critical field, the right education is paramount.
In our exploration of the best piping courses available, we delve into programs that offer not just theoretical knowledge but hands-on experiences to ensure you're well-equipped for the challenges of the dynamic world of piping. Hope that you will find the best course for you to master the art and science of piping.
Top Piping Courses List
- Know Read Understand Piping & Instrumentation Diagrams P&IDs
- Flow of fluids through piping systems, valves, and pumps
- PG Diploma in Piping Design Engineering
- Piping Design Engineering & Piping Isometrics Masterclass
- How to Read P&ID, PFD & BFD used in Process Plant like Pro
- Valves: Principles, Operation & Designs
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1. Know Read Understand Piping & Instrumentation Diagrams P&IDs
This comprehensive course is designed to transform you into a Piping and Instrumentation Diagrams (P&ID) expert, providing a deep understanding of these essential engineering drawings used in various process industries. Whether you're involved in the Oil and gas, chemical, pharmaceutical, or food industries, P&IDs play a crucial role in the design, construction, operation, and maintenance of industrial plants.
In this piping course, you will learn the following:
- Evaluate the purpose and importance of P&IDs in plant processes.
- Learn to read, interpret, and understand all sections of P&IDs with real industrial examples.
- Identify key P&ID sections, valve symbols, actuator symbols, and valve status standards.
- Recognize process equipment, piping, pipe fitting, and instrumentation symbols on P&IDs.
- Determine specific information about process piping, including material, size, and insulation.
- Identify safety device symbols, pneumatic/electric/hydraulic signal lines, and instrumentation symbols.
- Understand lettering and numbering standards for piping, instruments, and equipment on P&IDs.
- Trace the flow of a process stream and interpret basic process control schemes on P&IDs.
- Understand different process control options (cascade control, split range control, etc.) on P&IDs.
- Define and explain flow control, temperature control, pressure control, and level control on P&IDs.
- Understand control of pressure and flow in pipes, flow merging, and splitting control on P&IDs.
- Understand control systems for pumps, compressors, heat exchangers, reactors, fired heaters, vessels, and electric motors on P&IDs.
- Understand Safety Instrumented Systems (SIS), alarm systems, safe operating limits, and Fire and Gas Detection Systems (FGS) on P&IDs.
- Assess emergency situations and regulatory compliance issues using P&IDs.
The course begins by demystifying the complexity of P&IDs, offering a step-by-step guide to interpreting lines, symbols, process control schemes, and safety instrumented functions found in plant drawings. By the end of the training, you'll gain the expertise to draw valuable insights from P&IDs, setting you apart in your professional journey, be it as an operator, engineer, or manager.
From basic blueprint reading to mastering instrument loops, advanced process control systems, and safety functions, this course covers it all. Dive into the intricacies of symbols, including valves, actuators, process equipment, instrumentation, piping, and fittings, along with understanding the relevant standards and conventions.
- Course rating: 4.5 out of 5.0 (2,289 Rating total)
- Duration: 7.5 Hours
- Certificate: Certificate of completion
2. Flow of fluids through piping systems, valves, and pumps
This unique training course provides a practical and essential guide to comprehending the fluid flow dynamics in pipes, valves, and fittings, offering insights crucial for successful plant design and flawless system operation. The piping course unfolds through practical examples, guiding participants toward effective solutions.
Key components include an exploration of the physical properties of fluids, compressible and incompressible fluid flow, sizing flow meters and valves, in-depth discussions on cavitation and choking in control valves, and a dedicated section with 25 concrete flow problems for hands-on practice.
In this piping course, you will learn the following:
- Understand the main physical properties of fluids (viscosity, vapor pressure, specific gravity, weight density...)
- Understand the theory of flow in pipe: Laminar vs Turbulent flow.
- Understand and learn how to use the Bernoulli Theorem for pressure drop, head loss, or flow velocity assessment.
- Learn how to calculate the pressure drop "dP" and the head loss "hL" through any piping system.
- Learn how to determine the friction factor "f" of any piping system.
- Learn how to calculate the flow of compressible and incompressible fluids in the pipe.
- Learn how to calculate the resistance coefficient "K" of any piping component (pipes, valves, bends, reducers, Tees, Wyes...)
- Learn what the flow coefficient "Cv" of a control valve means and how to use it in assessing flows and pressure drops.
- Know what a control valve is and its main components.
- Understand the theory of regulating flow with control valves.
- Understand the concepts of cavitation and choking in control valves through graphics and 3D animations.
- Learn how to size and select a control valve when designing and operating any piping system for both gases and liquids.
- Understand the theory of flow measurement using differential pressure meters such as Orifice Plates, Flow Nozzles, and Venturi Meters.
- Learn how to calculate the flow of compressible and incompressible fluids through Orifice Plates, Flow Nozzles, and Venturi Meters.
- Learn how to size and select a flow meter when designing and operating any piping system for both gases and liquids.
The course utilizes the Flow of Fluids Excel Workbook to calculate various parameters, enhancing the application of theoretical knowledge. Packed with images, equations, graphs, 3D animations, and solved flow problems, it serves as both an educational tool and an industrial reference for professionals in fluid handling industries.
This resource is not only beneficial for practicing engineers seeking insights into fluid behavior for cost-effective design and efficient operation but also serves as a valuable study guide for undergraduates in process, chemical, petrochemical, and petroleum engineering disciplines.
- Course rating: 4.0 out of 5.0 (1,058 Rating total)
- Duration: 7 Hours
- Certificate: Certificate of completion
3. PG Diploma in Piping Design Engineering
Welcome to the comprehensive world of Piping Designing, where this course serves as your gateway to entry-level knowledge that surpasses the standard PG Diploma in Piping Design Engineering, all at no cost in comparison. Offering a perfect blend of theoretical study and practical application, this course elevates your understanding of piping design through a series of exercises and real-world examples.
In this piping course, you will learn the following:
- Learn the core concepts of Piping design.
- Learn the designing procedure of different Plants.
- Learns Codes & Standards used in industry
- Learn about static and rotary Piping Equipment.
- Learn to read PFD UFD & P&ID.
- Learn about pipe fitting, components, and valves.
- Learn the selection of valves & fittings.
- Types of stresses in piping system & testing.
- Piping Fabrication Methods.
- Learn to make Isometric Drawings.
- Learn to make General Arrangement Drawings.
- Learn about all Documents involved in Designing.
- Learn designing calculations like pipe size, and line size calculations.
- Learn different types of Supports & selection methods.
- Learn 3D Piping designing in PDMS.
What sets this course apart is its innovative design, using colors strategically to indicate the difficulty level of each topic. Easy concepts are adorned with bright, pleasant colors, while more challenging topics feature dark and intense hues to enhance concentration. Emphasizing application-based learning, the course keeps your curiosity alive, providing practical insights at every turn. Short yet content-rich videos leave you feeling fulfilled, making this course a rewarding journey into the realm of Piping design.
- Course rating: 4.3 out of 5.0 (1,141 Rating total)
- Duration: 8 Hours
- Certificate: Certificate of completion
4. Piping Design Engineering & Piping Isometrics Masterclass
This masterclass is divided into two parts. The first section breaks down the principles of piping system design and construction. It will cover key concepts such as joining technologies, welding methods, pipe expansion handling, distances between piping supports, and dimensioning of pipe guides and anchors.
In this piping course, you will learn the following:
- Master a systematic Piping Design Method, starting from the ground up.
- Access essential sizing tables, dimensioning charts, and technical booklets on Flanges and valves.
- Test your knowledge with over 300 quiz questions.
- Develop a robust understanding of metallic and nonmetallic piping systems, including manufacturing and joining methods.
- Recognize various fittings, flanges, gaskets, and bolting materials.
- Identify valves, control valves, and piping accessories.
- Gain insights on selecting pipe specifications, materials, spacing, and arrangement for effective piping support systems.
- Learn the process of pipe identification and grasp piping classes and international standards (ASME, ANSI, AFNOR).
- Understand the significance of Piping Isometrics in construction, commissioning, and maintenance.
- Learn to read, interpret, and draw Piping Isometrics with real industrial examples.
- Recognize valve symbols, status conventions, process equipment symbols, and instrumentation symbols on Piping Isometrics.
- Understand lettering and numbering standards for effective designation.
- Trace the flow of a process stream through pipes and equipment in Piping Isometrics.
The second section transforms you into a Piping Isometric expert, teaching you to read, interpret, and understand various lines and piping symbols. Moreover, you'll learn how to draw your own piping isometrics. The part includes downloadable resources, real industrial examples of Piping Isometrics, and high-quality video lectures for practical understanding.
The course encourages a sequential approach to ensure a comprehensive grasp, starting from the beginning and navigating through all sections. The bonus items provided throughout part II enhance your proficiency and offer hands-on practice.
- Course rating: 4.5 out of 5.0 (1,320 Rating total)
- Duration: 10 Hours
- Certificate: Certificate of completion
5. How to Read P&ID, PFD & BFD used in Process Plant like Pro
This comprehensive course equips you with the skills to proficiently read and interpret P&ID (Piping and Instrumentation Diagram), Block Flow Diagram (BFD), and Process Flow Diagram (PFD). Whether you're new to Process Flow schemes (PFS) and Process Engineering Flow schemes (PEFS), or seeking to enhance your understanding, this course is tailored for you. Delve into the essentials of these drawings, unravel their components, and grasp their significance in the engineering landscape.
In this piping course, you will learn the following:
- Read and understand P&ID/PEFS - Piping and Instrumentation Diagram/Process Engineering Flow Scheme.
- Read and understand PFD/PFS - Process Flow Diagram/Process Flow Scheme.
- Read and understand the BFD - Block Flow Diagram.
Master the art of reading P&ID and PFD symbols, covering diverse elements such as Tank farm, Process Plant, Column, Heat Exchanger, Pump, and Tank. The course caters to beginners, ensuring a smooth learning curve, even for those with no prior experience. It commences with fundamental drawing components, paving the way for a solid foundation. Symbol comprehension is key to interpreting P&ID and PFD, and the course dedicates a segment to familiarizing you with these essential symbols.
The selected examples, ranging from refineries to power plants, petrochemical complexes, and offshore oil platforms, encompass all major components of process facilities. Upon completion, you'll navigate workplace P&ID, PFD, and BFD diagrams with confidence and expertise.
- Course rating: 4.7 out of 5.0 (839 Rating total)
- Duration: 3 Hours
- Certificate: Certificate of completion
6. Valves: Principles, Operation & Designs
Embark on a comprehensive exploration of valves with this enlightening course, designed to furnish you with a thorough understanding of their construction, functionality, and significance in plant operations. Through a rich array of graphics, 3D animations, and cross-sectional views, you'll gain a virtual hands-on experience, unraveling the intricacies of valves in the process industry.
In this piping course, you will learn the following:
- Understand valves and control valve working principles for the successful operation of your plant and piping systems.
- Understand valve construction details (bonnet, stem, disk, seat, packing, body, etc).
- Know the characteristics and applications for each valve type (ball, plug, gate, pinch, butterfly, diaphragm, check, needle...)
- Know how to choose the correct valve for a certain application.
- Know how to dismantle and assemble all types of valves using 3D and 2D models.
- Identify and know the principles of operation of common valve actuators (pneumatic, hydraulic, electrical, etc).
- Understand how single-acting and double-acting pneumatic actuators work through graphics and 3D animations.
- Understand the principle of fail open (FO) and fail close (FC) actuators.
- Know how to convert a single-acting spring return actuator to a double-acting actuator and vice versa.
- Know how to convert a fail-close actuator to a fail-open actuator and vice versa.
- Learn how to size valves.
- Learn how to calculate the resistance coefficient "K" of any valve.
- Learn what the flow coefficient "Cv" of a control valve means and how to use it in assessing flows and pressure drops.
- Understand the theory of regulating flow with control valves.
- Understand the concepts of cavitation and choking in control valves through graphics and 3D animations.
- Learn how to size and select a control valve when designing and operating any piping system for both gases and liquids.
- Know and identify valve symbols on engineering drawings such as P&IDs.
- Know the standards and conventions for valve status (open, closed, throttled).
- Identify valve position and failure mode on your P&IDs (LO, LC, FO, FC, FAIā¦)
First, you will explore the major valve types integral to the process industry, delving into their distinctive characteristics and applications. Then, you will learn about the components constituting valves, understand their functions, and grasp the intricacies of valve operation. You will also engage in practical learning by dismantling and assembling various valves, facilitated by 3D models, cross-sectional views, and animated demonstrations.
After that, you will delve into an in-depth discussion on actuators and control valves, unraveling their role in regulating fluid flow. Concepts like head loss, pressure drop, valve coefficient "Cv," flow resistance, valve curves, and cavitation will be thoroughly covered.
Lastly, you will familiarize yourself with valve symbols as depicted in engineering drawings, specifically Piping and instrumentation Diagrams (P&IDs). Gain insights into the standards and conventions governing valves and their accessories, including the depiction of valve status and failure modes in engineering drawings.
- Course rating: 4.4 out of 5.0 (917 Rating total)
- Duration: 4.5 Hours
- Certificate: Certificate of completion
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