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Free Download Control Valves Fundamentals, Sizing, and Application Published 10/2024 Created by Velocis Solutions MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch Genre: eLearning | Language: English | Duration: 64 Lectures ( 2h 14m ) | Size: 618 MB Master Control Valves: Key Components, Sizing, Selection, and Flow Characteristics for Industrial Efficiency What you'll learn Understand control valve components, functions, and key characteristics. Analyze control loop dynamics, including gain, dead time, and response. Select appropriate control valves for specific industrial applications. Master control valve sizing techniques for accurate flow regulation. Requirements There are no strict prerequisites for taking this course, making it accessible to beginners interested in control systems and industrial automation. However, to get the most out of the course, it's helpful if learners have: Basic understanding of fluid mechanics to grasp flow dynamics. Familiarity with industrial processes and control systems. Basic mathematics skills for calculations related to valve sizing. Access to a computer or tablet for engaging with course materials and practice exercises. This course is designed to provide foundational knowledge, so even those new to the field will find it accessible and informative. Description This course on Control Valves is designed to equip parti[beeep]nts with essential knowledge for understanding and applying control valves in industrial settings. Control valves are crucial for regulating flow, pressure, and temperature in various processes, impacting industries like oil and gas, chemical manufacturing, and power generation. By mastering the selection, operation, and maintenance of control valves, students can significantly enhance process stability, safety, and efficiency.The course begins with a focus on terminology, laying a foundation by introducing key terms like control condition, set value, actuator, and controlled medium, which are fundamental to understanding automated control systems. Parti[beeep]nts then explore different types of control valves, including sliding stem and rotary valves, as well as specific valve types like globe, butterfly, and ball valves. Each type's characteristics, advantages, and limitations are discussed, providing a well-rounded perspective for various applications.Key sections of the course include valve sizing and selection. Proper valve sizing ensures that the chosen valve can handle the intended flow capacity and pressure range without issues like choked flow or excessive noise. Additionally, selection criteria such as fluid type, temperature, and pressure ratings are explored to guide parti[beeep]nts in choosing the most suitable valve for any application.Through interactive lessons and practical examples, this course aims to build both theoretical and practical knowledge, enabling parti[beeep]nts to apply these concepts effectively in their respective fields and optimize industrial processes through better control valve use. Who this course is for This course is designed for engineers, technicians, and students interested in learning about control valves and industrial automation. It's ideal for those involved in process engineering, instrumentation, and automation who want to enhance their understanding of valve types, sizing, and operation. Professionals seeking to improve their skills in process control, maintenance, and valve selection will find this course valuable, as well as beginners looking to build a solid foundation in control systems. Whether you are a recent graduate, a field technician, or a seasoned engineer, this course provides the knowledge needed to excel in managing industrial processes. Homepage https://www.udemy.com/course/control-valves-fundamentals-sizing-and-application/ Screenshot Rapidgator https://rg.to/file/0118050cd4a2bac8e0e27bf1c42efd56/quhww.Control.Valves.Fundamentals.Sizing.and.Application.rar.html Fikper Free Download https://fikper.com/vgeKk09D20/quhww.Control.Valves.Fundamentals.Sizing.and.Application.rar.html No Password - Links are Interchangeable

Free Download Condensate Systems - Design Sizing Operation & Optimization Published 10/2024 MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz Language: English | Size: 1.32 GB | Duration: 3h 36m A complete understanding of condensate systems for successful, efficient and safe operation of your steam plant What you'll learn Discover how to effectively recover and reuse condensate to reduce energy costs and enhance system efficiency Learn best practices for designing return lines to ensure safe, efficient, and smooth transport of condensate back to the boiler Master the principles of calculating and sizing condensate return lines to prevent bottlenecks and pressure drops that could disrupt plant operations Explore various methods of condensate removal from vented receivers, including mechanical pumping systems that optimize flow and energy use Understand how to lift condensate over obstacles and into high-pressure zones with minimal energy loss and system strain Requirements The student who will gain the most from this course will come equipped with some knowledge of fluid flow and an acquaintance with steam systems. For these reasons, we strongly recommend that prior to taking the present course, you attend first our course - Steam systems: Design, Sizing, Operation, Maintenance & Optimization In addition, having taken our below training courses is a plus but not mandatory - Designing Piping Systems: Pipe, Fittings, Flanges & Valves - Valves & Control Valves: Principles, Operation & Design - Heat Exchangers: Design, Operation & Maintenance - Flow of Fluids Through Piping Systems, Valves, Fittings and Pumps Description In any process plant, steam and condensate systems are the backbone of efficient energy use. Without the proper recovery and management of condensate, valuable energy is wasted, system components deteriorate prematurely, and operational costs soar. This course will provide you with essential knowledge and tools to ensure your condensate systems are not just functional but optimized for peak performance.The course focuses on the following key areas:Condensate Recovery: Discover how to effectively recover and reuse condensate to reduce energy costs and enhance system efficiency.Layout of Condensate Return Lines: Learn best practices for designing return lines to ensure safe, efficient, and smooth transport of condensate back to the boiler.Sizing Condensate Return Lines: Master the principles of calculating and sizing condensate return lines to prevent bottlenecks and pressure drops that could disrupt plant operations.Pumping Condensate from Vented Receivers: Explore various methods of condensate removal from vented receivers, including mechanical pumping systems that optimize flow and energy use.Lifting Condensate: Understand how to lift condensate over obstacles and into high-pressure zones with minimal energy loss and system strain.This course is designed for engineers and plant operators who want to gain a deep understanding of condensate system design, operation, and maintenance. You'll be guided through step-by-step instructions, detailed technical descriptions, and engineering best practices, reinforced by extensive visuals, sizing tables, and real-world case studies.Key Features:Interactive quizzes and numerous solved problems to consolidate your learning.Comprehensive visual aids and graphics for a clearer understanding of complex concepts.Downloadable resources, including engineering data and design templates.By the end of this course, you will have the confidence to design, optimize, and troubleshoot condensate systems in a way that maximizes efficiency, safety, and reliability-ensuring your plant remains productive and cost-effective.Don't miss out on this opportunity to enhance your technical expertise! Enroll now to take your understanding of condensate systems to the next level.WR TrainingSpread the wings of your knowledge Overview Section 1: Condensate recovery Lecture 1 Introduction to condensate recovery Lecture 2 Calculating the amount of flash steam from condensate Lecture 3 Live steam / Flash steam Lecture 4 Why return condensate and reuse it ? Lecture 5 The financial value or returning condensate Lecture 6 Before you proceed to the next section Section 2: Layout of condensate return lines Lecture 7 Introduction to layout of condensate return lines Lecture 8 Drain lines to steam traps (1/3) Lecture 9 Sizing a drain line to a thermostatic trap Lecture 10 Drain lines to steam traps (2/3) Lecture 11 Drain lines to steam traps (3/3) Lecture 12 Discharge lines from traps Lecture 13 Common return lines Lecture 14 Draining into flooded lines Lecture 15 Discharge lines at different pressures Lecture 16 Before you proceed to the next section Section 3: Sizing condensate return lines Lecture 17 Introduction Lecture 18 Sizing drain lines to traps Lecture 19 Sizing drain lines to traps - Worked example Lecture 20 Sizing discharge lines from traps Lecture 21 Factors affecting the two-phase flow Lecture 22 Condensate pipe sizing chart Lecture 23 Sizing for falling discharge lines - Worked example Lecture 24 Sizing for rising discharge lines - Worked example Lecture 25 Sizing for vented discharge lines - Worked example Lecture 26 Common return lines - Falling lines Lecture 27 Common return lines - Rising lines Lecture 28 Falling common line - Apply your knowledge Lecture 29 Rising common line - Apply your knowledge Lecture 30 Before you proceed to the next section Section 4: Pumping condensate from vented receivers Lecture 31 Introduction to pumping condensate from vented receivers Lecture 32 Pumping terminology Lecture 33 Cavitation in centrifugal pumps experiment Lecture 34 Head exercise with a positive displacement pump Lecture 35 Centrifugal condensate pumps Lecture 36 Sizing a condensate recovery unit Lecture 37 Sizing the discharge pipe for a condensate recovery unit Lecture 38 Positive displacement condensate pumps Lecture 39 More on positive displacement condensate pumps Lecture 40 Pump application Lecture 41 Sizing a mechanical condensate pump Lecture 42 Condensate pump sizing exercise Lecture 43 Sizing the discharge pipe for a mechanical condensate pump Lecture 44 Sizing the discharge pipe for a mechanical condensate pump - Worked example Lecture 45 Sizing the discharge pipe for a mechanical condensate pump - Worked example 2 Lecture 46 Assessing a larger pump and a smaller delivery line Lecture 47 Condensate velocities Lecture 48 Best practices for long delivery lines Lecture 49 Before you proceed to the next section Section 5: Lifting condensate Lecture 50 Lifting condensate from a steam main Lecture 51 Contaminated condensate Lecture 52 Before you proceed to the next section Section 6: More on condensate system equipment - Steam traps Lecture 53 Overview of steam traps Lecture 54 Float traps Lecture 55 Thermostatic traps Lecture 56 Thermodynamic traps Lecture 57 Inverted bucket traps Lecture 58 Testing of steam traps Lecture 59 Maintenance of steam traps Lecture 60 Energy losses in steam traps Lecture 61 Before you proceed to the next section Section 7: More on condensate system equipment - Strainers Lecture 62 Overview of strainers Lecture 63 Wye strainers Lecture 64 Basket strainers Lecture 65 Strainer screens Section 8: Downloadable resources Lecture 66 Download me This course is ideal for a wide range of professionals looking to deepen their understanding of condensate recovery. You will find the course content valuable if you are:,Engineers and Technicians working in process plants, power generation, petrochemicals, or any industrial sector that relies on steam systems for energy and production,Plant Managers and Operators responsible for the operation, maintenance, and optimization of steam and condensate systems and looking to improve plant efficiency and reduce operational costs,Maintenance Personnel tasked with troubleshooting and maintaining condensate systems, ensuring their reliable and safe operation,Energy Efficiency Specialists focused on maximizing energy recovery and minimizing waste through effective condensate recovery and optimization,New Engineers or Graduates looking to build a strong foundation in steam and condensate systems, preparing for a career in industries like refining, chemical processing, or power generation,Anyone Seeking Practical Knowledge in steam and condensate systems, even without prior experience, to boost their technical skills and understanding of industrial energy systems,Whether you're a beginner aiming to grasp the fundamentals or an experienced professional seeking advanced insights, this course offers valuable knowledge and real-world applications that will elevate your skills and enhance your career Screenshot Homepage https://www.udemy.com/course/condensate-systems-design-sizing-operation-optimization/ Rapidgator https://rg.to/file/8f24ea15152a52717d294e9371ecdad3/wdxad.Condensate.Systems.Design.Sizing.Operation..Optimization.part2.rar.html https://rg.to/file/9836611ae058350173099d542bc103cd/wdxad.Condensate.Systems.Design.Sizing.Operation..Optimization.part1.rar.html Fikper Free Download https://fikper.com/Dd6oJU9Dbo/wdxad.Condensate.Systems.Design.Sizing.Operation..Optimization.part1.rar.html https://fikper.com/TXK0Nt5DUe/wdxad.Condensate.Systems.Design.Sizing.Operation..Optimization.part2.rar.html No Password - Links are Interchangeable

Free Download Control Valve Sizing for Liquid Applications Published 9/2024 Created by Amr Mohyeldin MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch Genre: eLearning | Language: English | Duration: 25 Lectures ( 3h 31m ) | Size: 3.4 GB Size and Select Control Valves Appropiately,Calculate Valve Authoirty, Turndown, Pressure Drop and Avoid Cavitation What you'll learn: Size and Select Control Valves For Liquid Applications Understand Flow Coefficient (Cv), Flow Capacity at Different Pressure Drops, and Corrections for Viscosity and Specific Gravity Convert Flow Coefficient (Cv) to Resistance Coefficient (K) Analyze Inherent Valve Characteristic Curves With Examples Differentiate Between Inherent Valve Characteristics and Installed Valve Characteristic Curves Assess Valve Authority and Its Impact on Pressure Drop and System Head Curves Evaluate the Relationship Between Valve Open Percentage and System Head Curves Analyze the Impact of Valve and Operational Parameters on System Head Curves in Pump Applications Understand Valve Rangeability, Turndown Ratio, and Their Impact on Control Valve Sizing With Examples Apply Control Valve Sizing Heuristics Effectively Learn Reasons for Common Sizing Issues Like Cavitation and Flashing Learn and Apply Equations to Figure if Cavitation or Flashing Exists Work Through an Example to Check for Cavitation and Flashing Learn Additional Parameters for Selecting the Appropriate Control Valve Requirements: A basic understanding of the pump head equation, the ability to plot system head curves, and knowledge of adding resistances in series using resistance coefficients for common piping elements such as piping, elbows, and tees (See Course: Pipe Sizing & Modeling Piping Systems for Liquids). Description: Chapter 1: Resistances in SeriesIntroduction to Resistances in SeriesPump Sizing RoadmapChapter 2: ValvesFlow Coefficient (Cv)Cv Corrections for Viscosity and Specific GravityCv and Flow Capacity at Different Pressure DropsConverting Cv to Resistance Coefficient (K)Inherent Valve CurveExample of Inherent Valve CurveIntroduction to Valve AuthorityChapter 3: Valve Authority & Installed Characteristic CurveReviewing Valve Authority DefinitionsValve Authority vs System Head PlotInherent vs Installed Characteristic CurveExample: Estimating Pump Curve, System Curve, Valve Authority, and Installed Valve Characteristic Curve at Different Valve OpeningsExpressing Valve Open Percentage vs System Head MathematicallyImpact of Operating Parameters on System Head CurveChapter 4: Rangeability & TurndownValve RangeabilityExample of Valve RangeabilityValve TurndownChapter 5: Rules of Thumb for Sizing a ValveKey Rules of Thumb for Valve Sizing: Includes Heuristics for Different Valve Openings at Different Operating Flowrates, Liquid Velocity, and Recommended Control Valve Pressure DropChapter 6: Challenges With Sizing ValvesCommon Sizing IssuesCavitation and Flashing: What Are They, Why Are They a Problem, and How to Check if They Are PresentExample of Checking for Cavitation and Flashing in a Control ValveChapter 7: Valve Selection ConsiderationsValve Selection Considerations: Includes a High-Level Guide on the Typical Parameters Required for Selecting a Control Valve Who this course is for: Engineers In-Training, Recent College graduates, Engineering Students Chemical, Process, Petroleum Engineers Piping, Plant Engineers Mechanical Engineers Design Engineers Maintenance Technicians Plant Operators Civil Engineers Safety Engineers Homepage https://www.udemy.com/course/control-valve-sizing-for-liquid-applications/ Rapidgator https://rg.to/file/6a0e6efb4667f472dde089d40d651e83/vzqbq.Control.Valve.Sizing.for.Liquid.Applications.part1.rar.html https://rg.to/file/1968f856b35a4d1ad42e6d1456e56aca/vzqbq.Control.Valve.Sizing.for.Liquid.Applications.part2.rar.html https://rg.to/file/389765270a94b1e9a66a76f0f8aa3f9d/vzqbq.Control.Valve.Sizing.for.Liquid.Applications.part3.rar.html https://rg.to/file/fcdb1045dfc8daa0be78607b20633ba3/vzqbq.Control.Valve.Sizing.for.Liquid.Applications.part4.rar.html Fikper Free Download https://fikper.com/kNnGIb9Ih9/vzqbq.Control.Valve.Sizing.for.Liquid.Applications.part1.rar.html https://fikper.com/mNBkFXttWI/vzqbq.Control.Valve.Sizing.for.Liquid.Applications.part2.rar.html https://fikper.com/HNSfiSVOZ2/vzqbq.Control.Valve.Sizing.for.Liquid.Applications.part3.rar.html https://fikper.com/YzOyGCtJj4/vzqbq.Control.Valve.Sizing.for.Liquid.Applications.part4.rar.html No Password - Links are Interchangeable