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Centrifugal Pumps - In this video we learn the basics of how centrifugal pumps work, the main parts of centrifugal pumps, how the electrical motor powers the pump impeller and how the impeller moves water in the HVAC system. FIND OUT MORE HERE: ➡️ 🤍 State Supply is your source for steam and hydronic heating system components, such as steam traps, valves, controls, and pumps (including the industry’s top brand like Bell & Gossett, Taco, and more). Visit 🤍statesupply.com or call us toll-free at 877-775-7705 for an unparalleled selection of products, knowledgeable experts, and outstanding customer service. Check out centrifugal pumps ➡️ 🤍 View pump repair & maintenance videos ➡️ 🤍 Download this guide ➡️ 🤍 ⚡🛠️ TOOLS YOU NEED 🛠️⚡ Get this HVACR book ➡️ 🤍 Professional Multimeter -➡️ 🤍 Good multimeter -➡️ 🤍 Professional clamp meter ➡️ 🤍 Good Clamp meter ➡️ 🤍 Outlet tester ➡️- 🤍 Energy monitoring plug ➡️ 🤍 Battery tester -➡️ 🤍 Basic electronics kit ➡️ 🤍 MY FAVOURITE GEAR 🎥 My camera - 🤍 🎤 My Microphone - 🤍 ⌨️ My Keyboard - 🤍 🖥️ My monitor - 🤍 🎧 My headphones - 🤍 PUMP CHART TUTORIAL: ➡️ 🤍 👋 SOCIALISE WITH US 👋 * 👉FACEBOOK: 🤍 👉TWITTER: 🤍 👉INSTAGRAM: 🤍 👉WEBSITE: 🤍 👀 Links - MUST WATCH!! 👀 * ⚡ELECTRICAL ENGINEERING⚡ 👉How electricity works: 🤍 👉Three Phase Electricity: 🤍 👉How Inverters work: 🤍 👉How TRANSFORMER works: 🤍 👉How 3 Phase electricity works: 🤍 👉How Induction motor works: 🤍 👉What is a KWH: 🤍 👉How induction motor works: 🤍 ❄️ CHILLER ENGINEERING ❄️ 👉Chiller Efficiency improvements: 🤍 👉Chilled water schematics: 🤍 👉Chiller crash course: 🤍 👉Chiller types: 🤍 👉Chiller/Cooling tower/AHU: 🤍 👉Chiller compressors: 🤍 👉Chiller expansion valve: 🤍 👉Chiller surge: 🤍 👉Chiller condenser: 🤍 👉Chiller evaporator: 🤍 👉Chiller compressor centrifugal: 🤍 👉Chiller cooling capacity: 🤍 🌡️ HVAC ENGINEERING 🌡️ 👉HVAC Basics: 🤍 👉Boilers/AHU/FCU: 🤍 👉How Heat Pump works: 🤍 👉Heat pumps advanced: 🤍 👉Fan Coil Units: 🤍 👉Pulley belt calculations: 🤍 👉Pump calculations: 🤍 👉Fan and motor calculations: 🤍 👉HVAC Cooling coils: 🤍 👉Cooling towers: 🤍 ⚗️ REFRIGERATION SYSTEMS 🌡️ 👉How refrigerants work: 🤍 👉Thermal expansion valves: 🤍 👉Refrigeration design software: 🤍 👉Design refrigeration system: 🤍 👉Reversing valve: 🤍 👉How A/C units work: 🤍 ⚗️ REFRIGERANTS ⚗️ 👉Refrierant retrofit guide: 🤍 👉Refrigerant types, future: 🤍 👉How refrigerants work: 🤍 🌊 HYDRONICS 🌊 👉Primary & Secondary system: 🤍 👉Pumps: 🤍 👉Pump calculations: 🤍 🔥➡️❄️ HEAT EXCHANGERS 🔥➡️❄️ 👉Plate Heat Exchangers: 🤍 👉Micro plate heat exchanger: 🤍 💻 DATA CENTERS 💻 👉Data Center cooling: 🤍 🔬 PHYSICS 🔬 👉What is Density: 🤍 🎬 DOCUMENTARY 🎬 👉WW2 Bunker HVAC engineering: 🤍 npsh, cavitation, centrifugal pump, elearning, maintenance, hvacr, fluid mechanics, mechanical engineering, digital learning. #HVAC #mechanical #engineering
Pump curve basics. In this video we take a look at pump charts to understand the basics of how to read a pump chart. We look at basic pump curve, head pressure, flow rate, pump performance, impeller size, efficiency, npsh, multi-speed pumps, VFD's, rotational speed, voltage, frequency and phases to help you learn hvac, hvacr and mechanical engineering. LEARN MORE HERE: 🤍 Sign up for our FREE engineers newsletter for updates, competitions, news and offers 🎁 Link: 🤍 State Supply is your source for steam and hydronic heating system components, such as steam traps, valves, controls, and pumps (including the industry’s top brand like Bell & Gossett, Taco, and more). Visit 🤍statesupply.com or call us toll-free at 877-775-7705 for an unparalleled selection of products, knowledgeable experts, and outstanding customer service. Check out centrifugal pumps ➡️ 🤍 View pump repair & maintenance videos ➡️ 🤍 Download this guide ➡️ 🤍 FREE TOOLS Pump head Feet to Meters ➡️ 🤍 Pump power conversion ➡️ 🤍 👋 SOCIALISE WITH US 👋 👉FACEBOOK: 🤍 👉TWITTER: 🤍 👉INSTAGRAM: 🤍 👉WEBSITE: Http://TheEngineeringMindset.com 👀 Links - MUST WATCH!! 👀 ⚡ELECTRICAL ENGINEERING⚡ 👉How electricity works: 🤍 👉Three Phase Electricity: 🤍 👉How Inverters work: 🤍 👉How TRANSFORMER works: 🤍 👉How 3 Phase electricity works: 🤍 👉How Induction motor works: 🤍 👉What is a KWH: 🤍 👉How induction motor works: 🤍 ❄️ CHILLER ENGINEERING ❄️ 👉Chiller Efficiency improvements: 🤍 👉Chilled water schematics: 🤍 👉Chiller crash course: 🤍 👉Chiller types: 🤍 👉Chillers/AHU/RTU: 🤍 👉Water cooled chiller Part1: 🤍 👉Water cooled chiller Part2: 🤍 👉Water cooled chiller advanced: 🤍 👉Air cooled chiller: 🤍 👉Absorption Chiller : 🤍 👉Chiller/Cooling tower/AHU: 🤍 👉Chiller flow rate: 🤍 👉Chiller fault troubleshooting: 🤍 👉Chiller COP calculation: 🤍 👉Chiller cooling capacity calcs: 🤍 👉Chiller compressors: 🤍 👉Chiller expansion valve: 🤍 👉Chiller surge: 🤍 👉Chiller condenser: 🤍 👉Chiller evaporator: 🤍 🌡️ HVAC ENGINEERING 🌡️ 👉HVAC Basics: 🤍 👉Boilers/AHU/FCU: 🤍 👉How Heat Pump works: 🤍 👉Heat pumps advanced: 🤍 👉Fan Coil Units: 🤍 👉VAV Systems: 🤍 👉CAV Systems: 🤍 👉VRF Units: 🤍 👉Cooling load calculations: 🤍 👉Pulley belt calculations: 🤍 👉Pump calculations: 🤍 👉Fan and motor calculations: 🤍 👉HVAC Cooling coils: 🤍 👉Cooling towers: 🤍 ⚗️ REFRIGERATION SYSTEMS 🌡️ 👉How refrigerants work: 🤍 👉Thermal expansion valves: 🤍 👉Refrigeration design software: 🤍 👉Design refrigeration system: 🤍 👉Reversing valve: 🤍 ⚗️ REFRIGERANTS ⚗️ 👉Refrierant retrofit guide: 🤍 👉Refrigerant types, future: 🤍 👉How refrigerants work: 🤍 🌊 HYDRONICS 🌊 👉Primary & Secondary system: 🤍 👉Pumps: 🤍 👉Pump calculations: 🤍 🔥➡️❄️ HEAT EXCHANGERS 🔥➡️❄️ 👉Plate Heat Exchangers: 🤍 👉Micro plate heat exchanger: 🤍 💻 DATA CENTERS 💻 👉Data Center cooling: 🤍 🔬 PHYSICS 🔬 👉What is Density: 🤍 🎬 DOCUMENTARY 🎬 👉WW2 Bunker HVAC engineering: 🤍 fluid mechanics, hvacr, hvac, industrial engineering, elearning, e learning #mechanical #engineering #hvacr
Pumps Types - Types of Pump - Classification of Pumps - Different Types of Pump Types of Positive Displacement Pump: A positive displacement pump can be further classified according to the mechanism used to move the fluid. There are three types. Rotary-type positive displacement. Reciprocating-type positive displacement. Linear-type positive displacement. Dynamic pumps are one category of pumps under which there are several classes, two of which are: centrifugal pumps and special pumps. Basically pumps can be grouped into two general categories, Positive Displacement Pump and Dynamic Pump. #Pumps #Pump_Types #Learning_Engineering #konok_kamruzzaman Follow me on Facebook: 🤍 Join on my Facebook group: 🤍 Dear Sir, Thanks for watching my videos. If you have any question write in the comment box. Don’t forget to like and share. More update please subscribes our channel Learning Engineering, and get notification to press the bell icon. types of water pump, types of pumps and their uses, types of centrifugal pumps, types of pumps and their uses, types of pumps and their working principles, types of fuel injection pump, types of submersible pump, types of rotary pump, types of hydraulic pump, types of vacuum pump, types of water valve, Gear pumps, water pump, Screw pumps, Rotary vane pum, ps, Plunger pumps, Piston pumps, Centrifugal Pumps, Jet Pumps, learning Engineering,
What is a Pump? 14 Types of Pumps And Their Working Principle In this video, we're going to learn about what is a pump? and different types of pumps. We'll be looking at their pros and cons, as well as their industrial applications and what they're typically used for. We'll also look at some examples of each type of pump, so you can see what they look like in action. Recent Video : What is bearing? 15 Types of Bearings and Their working Principle: 🤍 A Pump is a mechanical device that uses to transfer different fluids from one location to another. It is a hydraulic device that lifts fluids from low to high levels and moves fluids from low to high-pressure areas. The pump transfers fluid by converting the fluid’s mechanical energy into pressure energy (hydraulic energy). Types of Pumps: In general, there are two main types of pumps. 1. Positive displacement pumps 2. Rotodynamic pumps 1. Positive displacement pumps • Reciprocating pump • Plunger pump • Gear pump • Vane pump • Lobe pump • Screw pump 2. Roto Dynamic pumps • Centrifugal pump • Axial Flow pump Applications of Pumps: Below are some most popular applications of pumps. 1. Pumping water from the wells 2. Aquarium and pond filtering 3. Water cooling and fuel injection in automobiles 4. Pumping oil or gas and operating cooling towers in the energy industry 5. They also have their uses in wastewater recycling, pulp and paper, chemical industry etc. #whatisapump #typesofpumps #pumptypes #centrifugalpumps #positivedisplacmentpump #gearpump #Lobepump #vanepump #applicationsofpumps #reciprocatingpumps #screwpumps #plungerpump #axialflowpump #workingprincipleofumps Background Music : Found You - Atch 🤍 promoted by Audio Library 🤍 Like this video If you find it useful share it with your friends, and If you have any questions leave a comment we’ll respond. Thanks for watching and subscribe for more.
Help us to make future videos for you. Make LE's efforts sustainable. Please support us at Patreon.com ! 🤍 This animated video is aimed at giving a logical explanation on the working of centrifugal pumps. The importance of priming, cavitation & NPSH and commonly used impeller types are also illustrated in this video. Centrifugal pumps are the most preferred home water pumps. Depending upon the fluid viscosity different impeller types such as open, semi-open and shrouded are used. Mechanical design aspects of centrifugal pump such as water sealing arrangement and bearing housing are also well explained here. A detailed article on centrifugal pump : 🤍
This video clearly explain various types of hydraulic pumps used in industry and its Working principle. Types of Hydraulic Pumps: 1.swash plate piston pumps 2.Radial piston pumps 3.Rotary vane pumps 4.External gear pumps 5.Internal gear pumps 6.Hand pumps Where are hydraulic pumps used? Hydraulic pumps are an integral component of every hydraulic transmission system. It is the hydraulic pump that is tasked with converting mechanical energy into hydraulic energy. This process is facilitated by the pump inputting a force in a way that creates a flow of the hydraulic fluid. It is the pressure within the hydraulic fluid that facilitates the transfer from mechanical energy to hydraulic. Hydraulic pumps are most commonly found in steel mills, foundries, lifts, conveyors, injection molding machines, shear and stamping presses, mixers, forklifts, pallet jacks and more. Watch and share to all 🤍technical piping 🤍youtube.com/technicalpiping LIKE | SHARE | SUBSCRIBE #technicalpiping #mechanicalengineering #pipingengineer #piping #oilandgas #refinery process #pipinginterviews #gear pump animation #pump design #gear pump working principle
Explaining how pumps produce both pressure and flow with some fun water demonstrations. The bundle deal with Curiosity Stream has ended, but you can still get a great discount on Nebula and support Practical Engineering here: 🤍 There’s a popular and persistent saying that pumps only create flow in a fluid, and resistance to that flow is what creates the pressure in a pipe. This video goes into some details about how two kinds of pumps work: centrifugal pumps and positive displacement pumps. Practical Engineering is a YouTube channel about infrastructure and the human-made world around us. Hosted, written, and produced by Grady Hillhouse. We have new videos posted regularly, so please subscribe for updates. If you enjoyed the video, hit that ‘like’ button, give us a comment, or watch another of our videos! CONNECT WITH ME Website: 🤍ering Twitter: 🤍 Instagram: 🤍 Reddit: 🤍 Facebook: 🤍 Patreon: 🤍 SPONSORSHIP INQUIRIES Please email my agent at practicalengineering🤍standard.tv DISCLAIMER This is not engineering advice. Everything here is for informational and entertainment purposes only. Contact an engineer licensed to practice in your area if you need professional advice or services. All non-licensed clips used for fair use commentary, criticism, and educational purposes. SPECIAL THANKS This video is sponsored by Nebula. Stock video and imagery provided by Getty Images, Shutterstock, Pond5, and Videoblocks. Tonic and Energy by Elexive is licensed under a Creative Commons Attribution License Source: 🤍 Producer/Host: Grady Hillhouse Assistant Producer: Wesley Crump
In this video we look at how centrifugal pumps work, it's main components induction motor, shaft, bearings, impeller and pump casing. The video lecture explores and explains the working principles of a Centrifugal pump providing real life examples. LEARN MORE HERE: 🤍 Sign up for our FREE engineers newsletter for updates, competitions, news and offers 🎁 Link: 🤍 ⚡🛠️ TOOLS YOU NEED 🛠️⚡ Get this HVACR book ➡️ 🤍 Professional Multimeter -➡️ 🤍 Good multimeter -➡️ 🤍 Professional clamp meter ➡️ 🤍 Good Clamp meter ➡️ 🤍 Outlet tester ➡️- 🤍 Energy monitoring plug ➡️ 🤍 Battery tester -➡️ 🤍 Basic electronics kit ➡️ 🤍 MY FAVOURITE GEAR 🎥 My camera - 🤍 🎤 My Microphone - 🤍 ⌨️ My Keyboard - 🤍 🖥️ My monitor - 🤍 🎧 My headphones - 🤍 Get your Engineers T-shirts, Hoodies, Cups & stickers here: * 🤍 ☕ Buy Paul a coffee to say thanks * ⚠️ *Found this video super useful?* Buy Paul a coffee to say thanks: ☕ PayPal: 🤍 Support us on Patreon * 🤍 ️ Check out our website! * 🤍 Socialise with us * FACEBOOK: 🤍 TWITTER: 🤍 Instagram: 🤍 Google+: 🤍 YouTube: 🤍 Links - MUST WATCH!! * How water cooled chiller works Prt1 - 🤍 How water cooled chiller works Prt2 - 🤍 How Air cooled chiller works - 🤍 How Absorption Chiller works - 🤍 How Heat Pump works: 🤍 Primary & Secondary system: 🤍 Fan Coil Units: 🤍 VAV Systems: 🤍 CAV Systems: 🤍 VRF Units: 🤍 HVAC Basics: 🤍 Heat Exchangers: 🤍 Pumps: 🤍 How a Chiller, Cooling Tower and Air Handling Unit work together - 🤍 Tools you need * VDE Screwdriver set: 🤍 Ratchet Screwdriver set: 🤍 Tape Measure: 🤍 Drill: 🤍 Drill bits: 🤍 Angle finder: 🤍 Multi set square: 🤍 Level: 🤍 T handle hex allen key: 🤍 Digital vernier: 🤍 Hammer: 🤍 Calculator: 🤍 Multimeter: 🤍 Head torch: 🤍 Pocket torch: 🤍 Magnetic wristband: 🤍 Laser distance finder: 🤍 Gorilla tape: 🤍 #HVAC #refrigeration #engineering
Visit 🤍 to view the full video and purchase access to our other Industrial Maintenance courses. Pumps are used to move liquids from one place to another by increasing the mechanical energy of the liquid. The energy can be used to raise the liquid to a higher elevation or to increase its velocity or pressure. In a centrifugal pump this is accomplished by rotating an impeller which creates centrifugal force that transfers energy to the liquid. This module focuses on pumping principles and operation guidelines for typical centrifugal pumps.
Want to continue learning about engineering with videos like this one? Then visit: 🤍 Want to teach/instruct with the 3D models shown in this video? Then visit: 🤍 Learn how a centrifugal pump works! We look at the operating principle of the centrifugal pump (water pump), discuss the Bernoulli Principle and briefly talk about some of the centrifugal pump’s main components. Like this video? Then check out our other videos! 🚢 Marine Diesel Two Stroke Engine - How it Works! - 🤍 🚢 Ship Parts and Terminology Explained! - 🤍 ⚙️How Deaerators Work! - 🤍 ⚙️How Shell and Tube Heat Exchangers Work! - 🤍 ⚙️How Power Grids Work! - 🤍 ⚙️How Watertube Boilers Work! - 🤍 ⚙️How Dams Work (Hydro Dams)! - 🤍 💡Control Valve Types (Gate Valve, Globe Valve etc.)! - 🤍 💡Transformer Parts and Functions! - 🤍 💡Plate Heat Exchangers Explained! - 🤍 📚Want to learn more about engineering? Then join saVRee to access over 45 hours of engineering video courses! New courses every month! 🤍 Hope to see you on a course soon! 👋 🏫Want to use the 3D model in this video to present, instruct, or teach? Simply join saVRee! We have over 400 engineering models that will make your life a lot easier! 🤍 📱Check out our socials! 🤍 📖You can learn more about engineering in our technical encyclopedia: 🤍 ▶️Introduction Centrifugal pumps are used in many applications all over the world. The pump is ideal for pumping fluids with a low amount of suspended bodies e.g. water. The centrifugal pump is low maintenance, reliable and relatively cheap. Operation Liquid is drawn into the impeller and flows outwards away from the impeller eye due to centrifugal force. The change in cross sectional area of the impeller vanes and volute casing causes the velocity energy to be changed to pressure energy (Bernoulli’s principle). PHYSICS DISCLAIMER :Centrifugal force is an imaginary force, only centripetal force is a true force, but it is beyond the scope of this video to clarify this concept further. Simulator Sources: 🤍 Image Sources 🤍 #saVRee #Pump #IndustrialEngineering
What is Pump? Pump Basics 🤍 A pump is a mechanical device that transfers fluids from lower elevation level to higher elevation level by converting electrical energy into hydraulic energy. Pumps can be of various types. These are operating based on various design principles. Working philosophy are different based on the applications for different pumps. It needs a driver which will powered the pump to operate. Driver can be various means like motor or engine or gas or turbine etc. Facebook: 🤍 Twitter: 🤍 Instagram: 🤍
*Clarification: Cavitation bubbles are NOT air bubbles, they are bubbles of vaporized process liquid (eg steam if the liquid is water). Entrained air (ie air bubbles which are already present in, or are injected into, the process stream) can actually be helpful in very small amounts (less than 1%), because they mitigate the effects of the more troublesome cavitation bubbles. But larger amounts of entrained air (or any kind of gas) can negatively affect pump performance and reliability in a number of ways, including inefficiency, vibration and air pockets which cause dry-running of the seals.* Brought to you by the Machine Tech Video Blog! In this video, Adam introduces centrifugal pumps. He covers: + The function of a pump + The main components of a centrifugal pump + The basic theory of centrifugal pump operation + A few considerations for proper operation + Basic fluid dynamics theory for pumps Title music by Andrew Applepie - "Festivities": 🤍 Special thanks to Laney College in Oakland, CA. For more about Laney College, check out the website: 🤍 AND BE SURE TO SMASH THAT "LIKE" BUTTON!
Recently submersible pumps have gained good market shares in both the industrial and domestic sectors, due to their high versatility and reliability. They need no priming, they are not prone to the issue of cavitation, and are very efficient. Let's explore the details of submersible pumps in this video. Voice over artist : 🤍 Be a Learn Engineering supporter or contributor : 🤍 instagram : 🤍 Twitter : 🤍 Telegram : 🤍 instagram : 🤍 Twitter : 🤍 Telegram : 🤍
A quick description and demo of this ingenious pump. A hydraulic ram is a clever device invented over 200 years ago that can pump water uphill with no other external source of power except for the water flowing into it and there is a way to take advantage of this normally inauspicious effect for a beneficial use. The ram pump is an ingenious way to take advantage of the properties of fluids. We all need water for a variety of reasons, so being able to move it where we need it without any fancy equipment or external sources of power is a pretty nice tool to have in your toolbox. Other YouTube Videos about Ram Pumps: Land to House: 🤍 WranglerStar: 🤍 Engineer775: 🤍 French River Springs: 🤍 Watch this video and the entire Practical Engineering catalog ad-free on Nebula: 🤍 -Patreon: 🤍 -Website: 🤍ering Writing/Editing/Production: Grady Hillhouse Director: Wesley Crump Tonic and Energy by Elexive is licensed under a Creative Commons Attribution License Source: 🤍 This video is sponsored by NordVPN.
The first 100 people to use code SCIENCE at the link below will get 60% off of Incogni: 🤍 This spiral pump uses air lock to push water to great hights. Here's Johnathan Deane's paper on the subject: 🤍 Here's my water solving mazes video: 🤍 Additional filming by Geronimo James You can buy my books here: 🤍 You can support me on Patreon and get access to the exclusive Discord: 🤍 just like these amazing people: Alex Hackman Glenn Sugden Tj Steyn Pavel Dubov Lizzy and Jack Jeremy Cole Brendan Williams Frank Hereford Lukas Biewald Damien Szerszinski Marshall Fitzpatrick Heather Liu Grant Hay John Zelinka Paul Warelis Matthew Cocke Nathan Blubaugh Twitter: 🤍 Instagram: 🤍 Facebook: 🤍 Buy nerdy maths things: 🤍
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Newsletter ▶ 🤍 ◀ 🎬 Heat Pump Playlist: 🤍 Roger looks at how heat pumps are versatile systems for heating and cooling, offering energy-efficient alternatives to traditional HVAC systems. They operate by transferring heat, rather than generating it, utilizing a few distinct types: Air-Source Heat Pumps: The most common type, air-source heat pumps extract heat from outdoor air to heat homes in winter and reverse the process to cool in summer. Ground-Source Heat Pumps: These utilize the earth's stable temperature as a heat source or sink, offering high efficiency, particularly in extreme climates. Water-Source Heat Pumps: These draw heat from a nearby water source, like a lake or well, offering efficient heating and cooling, especially in areas with abundant water resources. Absorption Heat Pumps: Powered by natural gas, solar energy, or geothermal heated water, these are an alternative in areas where electricity is costly or less available. Each type offers unique benefits, catering to different environmental and energy requirements, making heat pumps a flexible solution for diverse heating and cooling needs. #heatpump #airsourceheatpump #homeheating 🔗 Skill Builder Link Tree: 🤍 👍 Tell us what you like: 🤍 📪 Newsletter: 🤍 🎥 TikTok: 🤍 📣 Facebook: 🤍 📷 Instagram: 🤍 🛒 As an Amazon Associate, we earn from qualifying purchases 🎬 All videos: 🤍 💧 We Support Charity Water: 🤍 ◾ Out of respect to our channel sponsors and the wide variety of people who watch our videos, we'll remove comments that do not follow common standards of politeness and decency.
OurDoctor FNP-BC Clarissa Guerrero Discusses How to Properly Use a Pump to Get Bigger. OurDoctor provides the same accurate diagnosis and high-quality treatment as an urgent care face-to-face visit, but more cost-effectively and in your own home. 24/7 online care for Covid, Cold & Flu, Fever, Headaches, Sore Throat, Diarrhea, Urinary Tract Infection, Pink Eye, and more! To Schedule an Online Visit: 🤍 Online Lifestyle Prescriptions and OTC Products: 🤍
Automating 7 Lego Water Pumps Building and testing 7 different motorised Lego water pumps. Each electric water pump is placed in a basin. The basins are connected creating a water circulation. Each pump/basin has a water level sensor that adjusts the speed of the pump motor to avoid overflow. Things to consider: Pump type, flow rate, motor speed and pump speed. App used to program the pumps: Lego Powered Up App Lego Colour distance sensor: 🤍 Camera used for this video: 🤍 Microphones used for this video: 🤍 Please note: I get a commission if you buy via Amazon or BuWizz link above. Thanks for your support. Chapters: 00:00 Archimedes Screw 00:44 Centrifugal Pump 01:44 Chain Pump 02:26 Piston Pump 03:11 Water Wheel 03:45 Gear Pump 04:34 Peristaltic Pump 05:03 Float Switch 06:43 Outro Where I get my Lego parts from: 🤍 Music: Cold Water - Patrick Patrikios #bricktechnology #legotechnic #lego #asmr #engineering #waterpump #programming #automation
This video explains the working principle of single acting and double acting reciprocating pumps. It shows the construction and working animation of positive displacement or reciprocating pumps. Online learning is rapidly becoming one of the most cost-effective ways to educate world's rapidly expanding workforce. ADTW Learn – Learn at your convenience Visit: 🤍adtwstudy.com If you like these videos and want to learn from such videos for free. Then help this channel grow by sharing videos with you'r friends. Single point cutting tool : 🤍 Terms used in Cams and followers: 🤍 Spur Gear Terminology: 🤍 Manufacturing process: 🤍 Comparators: 🤍 Measuring Instruments: 🤍 Automobile: 🤍 Metrology and Measurement: 🤍 Mechanical Vibration: 🤍 #ReciprocatingPumps, #Pumps, #WorkingOfPumps, Single acting reciprocating pump working, Double acting reciprocating pump working,
The Shrimp to Shark is back sharing a small video about Centrifugal pumps and mechanical seals! Centrifugal pumps are critical in so many systems in the engine room! Therefore all engine cadets and engineers will work on them! Its good to have theory and curiosity on how they work therefore lets work together to change the mechanical seal on a leaking pump, and learn some things while doing it. Success and nothing else my friends I hope to share more of my life at sea little by little (Im working on a cruise ship now!) Follow me on other social media or send me a message instagram - 🤍Rafaelatsea Facebook - Rafael Ishaan Perez Music used in this video was made by these following artists! Intellect - Yung Logos Housin - Yung Logos Lofi Mallet - Kwon Papov - Yung Logos Cavemen of the Future - Joel Cummins, Andy Farag Blue Dream - Cheel Yung Logos - 🤍 Kwon - 🤍 Cheel - 🤍 Joel Cummins - 🤍 Thank you for your wonderful work and allowing video creators to use them! Success and nothing else
Brought to you by the Machine Tech Video Blog! In this video, Adam breaks down the different types of positive displacement pump. He covers: + Reciprocating pumps: Piston, Plunger, Diaphragm + Rotary pumps: Gear, Lobe, Vane, Peristaltic, Screw, Progressive Cavity Title music by Andrew Applepie - "Festivities": 🤍 Special thanks to Laney College in Oakland, CA. For more about Laney College, check out the website: 🤍 AND BE SURE TO SMASH THAT "LIKE" BUTTON!
Design of centrifugal pumps. The working process of a centrifugal pump. How does the impeller pump liquid? How do double suction centrifugal pumps work? What are multistage pumps for? Why do you need to prime the pump?
How do heat pumps work? Dave explains how heat pumps warm your home in the winter and cool your home in the summer. Heat pumps are a great clean energy option here in B.C. where we're powered by water. Learn more about electrification and making power smart choices at: ⇢ 🤍 Subscribe to our YouTube channel: ⇢ 🤍 Follow our other social channels: ⇢ TWITTER : 🤍 ⇢ INSTAGRAM : 🤍 ⇢ FACEBOOK : 🤍 About BC Hydro Here at BC Hydro, we make clean electricity, powered by water. It’s our job to make sure people in B.C. have a reliable source of clean energy to power all the things they interact with each day. Join us as we explore smart energy use, electrical safety, and behind-the-scenes looks at our work throughout the province.
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Want to continue learning about engineering with videos like this one? Then visit: 🤍 Want to teach/instruct with the 3D models shown in this video? Then visit: 🤍 This 3D animated video shows how a centrifugal pump works. We look at all of the centrifugal pump’s main components and briefly discuss how it works. The volute casing, diffuser, impeller, wear rings, compression packing, shaft and bearings are all discussed in the video. Like this video? Then check out our other videos! 🚢 Marine Diesel Two Stroke Engine - How it Works! - 🤍 🚢 Ship Parts and Terminology Explained! - 🤍 ⚙️How Deaerators Work! - 🤍 ⚙️How Shell and Tube Heat Exchangers Work! - 🤍 ⚙️How Power Grids Work! - 🤍 ⚙️How Watertube Boilers Work! - 🤍 ⚙️How Dams Work (Hydro Dams)! - 🤍 💡Control Valve Types (Gate Valve, Globe Valve etc.)! - 🤍 💡Transformer Parts and Functions! - 🤍 💡Plate Heat Exchangers Explained! - 🤍 📚Want to learn more about engineering? Then join saVRee to access over 45 hours of engineering video courses! New courses every month! 🤍 Hope to see you on a course soon! 👋 🏫Want to use the 3D model in this video to present, instruct, or teach? Simply join saVRee! We have over 400 engineering models that will make your life a lot easier! 🤍 📱Check out our socials! 🤍 📖You can learn more about engineering in our technical encyclopedia: 🤍 ▶️Introduction Centrifugal pumps consist of a stationary casing (volute or diffuser), impeller, wear rings, shaft, compression packing and bearings. Modern pumps often employ a mechanical seal instead of packing. All these pump components are discussed in the video and discussed in greater depth in the associated video course. Operation Liquid is drawn into the impeller and flows outwards away from the impeller eye. The change in cross sectional area of the impeller vanes and volute casing causes the velocity energy to be changed to pressure energy (Bernoulli’s principle). #saVRee #Pump #IndustrialEngineering
Centrifugal Pumps inspection and testing as per API 610 Centrifugal Pump e learning course Demo, this is part of Pumps components and functions if you like the video please subscribe for updates if you are interested on the course please register your interest as the course will be launched soon!!!
An amazing compact pump which is powered by your very own DIY drill. This drill pump is ideal for transferring water from an area or container to another where needed. Shop online for this product, visit 🤍
More pumping. More now. Links 'n' stuff: The original video (explaining how they work) 🤍 "Part 2" which is now, I guess, more simply about ground-source heat pumps and some other stuff 🤍 Technology Connextras (the second channel that stuff goes on sometimes): 🤍 Technology Connections on Twitter: 🤍 The TC Subreddit 🤍 And check out these cool people! Ryan Benson, Johnni Winther, Mark Hesse, Nathan Blubaugh, lululombard , Nelson , William Evans, VilleS , Anton Afanasev, HuskyWithCoffee , Ray , Petter Feltenstedt, Gideon Ritter, Oliver Lee, Lennart Sorensen, basram, Viorel , lohphat , Vivian Pypher, Brooke Whiting, Robin Johnsen, Phia Westfall, Tom Rolfe, Mark Wayt, Arthur Robillard, Vaughn B., Breunie Ploeg, Andy O, Benjamin Cirker, Julien Oster, LeoNerd , Chris Wallace, Matt Shea, Jason Baker, Galimaufry, Michael Holmes, Trey Harris, Benjamin Kier, Peter Pfundstein, Alan B., Mat Stu, RYAN INGOGLIA, Thomas Kolanus, Brett Morgan, Daniel Johnson, Potch , Reemt Rühmkorf, Robin Rattay, Bruce Justyn, Justin D, Adam Zawisza, Triancia, Juan Olivares, Michael Shaffer, Jason Spriggs, Gregory Kumpula, Daniel Pf, Yung Kim, John W Campbell, The Slapster, BytewiseMarissa, Vince Batchelor, Peter Sarossy, Toby Gerenger, Tracy Cogsdill, Matt Allaire, Guy , Will Hayworth, Benjamin Gott, Zach Le, Sean Fyles-Duggan, Fredrik Østrem, Anil Dash, Simon Safar, Fred Leckie, Kenneth Morenz, Andy Attebery, TritonZ , Greg Stearns, Chris Satterfield (Compgeke), Cameron Benton, Samuli Suomi, Keith McCready, Jeffrey Glover, Marcus Langendorff, Hsin-Kuei Chen, David Anez, Josiah Keller, roberto.xs, tfe, Struan Clark, Alexander Karlsson, Tarrien , Jason Viterna, DrMoebyus , Antonio Esparza, Chris Larsen, Michael Romero, Aram Hăvărneanu, Jonathon Mah, Arthur Zalevsky, John Fruetel, Adam Veneziano, Andrew Diamond, Cole Campbell, Christopher Beattie, Samuel Kirzner, Daniel Pritchard, Brandon Tomlinson, Eric Loewenthal, Jeremy Samuels, Malcolm Miles, David L Jones, Matthew Burket, Noah Corwin, Andrew Roland 00:00 Intro 00:43 An old video needs correcting 02:19 The Coefficient of Performance 03:16 Resistive Electric Heat's Challenges 05:16 How Heat Pumps get around those 07:39 Modern Heat Pump Performance Is Amazing! 08:33 An analysis of Chicago winters and Heat Pumps 10:53 Hourly Analysis and Conclusion 12:24 Caveats (costs and demand) 13:52 The Main Point Of This Video 15:49 Backup heat, its necessity, and the options involved 18:29 Conclusion and where to go from here 19:56 Bloopers
Explore the sodium potassium pump (Na+/K+ pump), with the Amoeba Sisters! This video talks about why this pump is needed and provides an overview of this type of active transport. Table of Contents: 00:00 Intro 0:48 Introducing the Sodium Potassium Pump 1:53 Resting Membrane Potential (which the pump helps maintain) 2:51 Sodium Potassium Pump Action is Described Factual References: Clark, M. A., Douglas, M., & Choi, J. (2018). Biology 2e. Houston, TX: Biology Stax. 🤍 Reece, J. B., & Campbell, N. A. (2011). Campbell biology. Boston: Benjamin Cummings / Pearson. Further Reading Suggestions: More detail about the sodium potassium pump? 🤍 What occurs as the potassium starts to have a net movement out of the cell through leakage channels? Does it reach an equilibrium? A great further reading: 🤍 Learn more about the resting potential: 🤍 The Amoeba Sisters videos demystify science with humor and relevance. The videos center on Pinky's certification and experience in teaching biology at the high school level. Amoeba Sisters videos only cover concepts that Pinky is certified to teach, and they focus on her specialty: secondary life science. Learn more about our videos here: 🤍 Support Us? 🤍 Our Resources: Biology Playlist: 🤍 GIFs: 🤍 Handouts: 🤍 Comics: 🤍 Unlectured Series: 🤍 Connect with us! Website: 🤍 Twitter: 🤍 Facebook: 🤍 Tumblr: 🤍 Pinterest: 🤍 Instagram: 🤍 Visit our Redbubble store at 🤍 TIPS FOR VIEWING EDU YOUTUBE VIDEOS: Want to learn tips for viewing edu YouTube videos including changing the speed, language, viewing the transcript, etc? 🤍 MUSIC: Our intro music designed and performed by Jeremiah Cheshire. End music in this video is listed free to use/no attribution required from the YouTube audio library 🤍 COMMUNITY: We take pride in our AWESOME community, and we welcome feedback and discussion. However, please remember that this is an education channel. See YouTube's community guidelines and how YouTube handles comments that are reported by the community. We also reserve the right to remove comments. TRANSLATIONS: Thank you so much to our translators! Swedish subtitles: Zashema Hindi subtitles: Alisha Aggarwal Some translated subtitles on our videos were translated by the community using YouTube's community-contributed subtitle feature. After the feature was discontinued by YouTube, we have another option for submitting translated subtitles here: 🤍 We want to thank our amazing community for the generosity of their time in continuing to create translated subtitles. If you have a concern about community contributed contributions, please contact us. We have an authorized channel with our videos dubbed in Spanish here 🤍
In process operations, liquids and their movement and transfer from place to place, plays a large part in the process. Liquid can only flow under its own power from one elevation to a lower elevation or, from a high pressure system to a lower pressure system. The flow of liquid is also affected by friction, pipe size, liquid viscosity and the bends and fittings in the piping. To overcome flow problems, and to move liquids from place to place, against a higher pressure or to a higher elevation, energy must be added to the liquid. To add the required energy to liquids, we use ' PUMPS '. A pump therefore is defined as ' A machine used to add energy to a liquid '. Pumps come in many types and sizes. The type depends on the function the pump is to perform and the size (and speed) depends on the amount of liquid to be moved in a given time. like our Facebook Page 🤍 Follow us on instagram 🤍 Do like, Share, Comment & Subscribe you can also watch my other videos, links are given below Basic Piping Isometric Symbols 🤍 distillation column process 🤍 pressure measurement 🤍 Codes & Standard 🤍 Fundamental of Valves 🤍 Pipe Color Coding Standards 🤍 Control Valve 🤍 Indian Oil & Gas Industries 🤍 Types of Pipes 🤍 Pipe Standard 🤍
▶ READ the article: 🤍 ▶ SUBSCRIBE to the email: 🤍 ▶ SCHEDULE training: 🤍 = - PODCAST: 🤍 - FACEBOOK: 🤍 - LINKEDIN: 🤍 - PRODUCT & TECHNICAL SUPPORT: prodtechsupport🤍kimray.com or 1-405-525-4264 - CAREERS 🤍 KIMRAY: 🤍 = 0:00 Intro 0:26 Why Producers Use ESPs 1:00 ESP Systems Simplified 1:43 Sensor 2:10 Electric Motor 2:48 Seal Chamber 3:05 Shaft 3:21 Pump Intake 3:50 Reverse-Flow Pump Intake 4:31 Rotary Pump Intake 4:57 Centrifugal Pump Stages 6:02 Power Cable 6:23 Check Valve 6:41 Controller Types 7:20 Advantages & Disadvantages = ESP stands for electric submersible pump. It is a is a form of artificial lift that uses an electric motor to drive a multistage centrifugal pump to lift resources from the well. In this video we’ll discuss why producers choose to use an ESP, the components of an ESP system and how it operates, as well as its advantages and disadvantages compared to other forms of artificial lift. Leave a comment below if you have any questions! Some questions can be answered online, but for detailed technical support, email prodtechsupport🤍kimray.com and mention which video you're referencing. - Music by 🤍
Note: At 44:52, the equation should be Q = V*A, not Q = V/A. 0:00:15 - Introduction to centrifugal pumps, measuring pump head 0:04:09 - Pump performance curves 0:16:18 - Net positive suction head (NPSH) 0:21:46 - Example: NPSH 0:25:30 - Pump selection using pump specific speed (Ns) 0:33:50 - Example: Centrifugal pump in a pipe network 0:56:15 - Comments on homework Want to see more mechanical engineering instructional videos? Visit the Cal Poly Pomona Mechanical Engineering Department's video library, ME Online: 🤍 This lecture series was recorded live at Cal Poly Pomona during Spring 2018. The textbook is White "Fluid Mechanics (8th edition)."
Ankle pumps. Lying down on your back, or sitting in a chair, pull your toes up toward your head, then point your toes down. This exercise will help to prevent blood clots and can help reduce swelling. Do this exercise with both ankles at the same time, and repeat it ten times every hour. Don't hold your breath while doing this exercise. Please visit 🤍 or call 734-936-5780 if you have any questions or concerns.
View full lesson: 🤍 For most of history, scientists weren't quite sure why our hearts were beating or even what purpose they served. Eventually, we realized that these thumping organs serve the vital task of pumping clean blood throughout the body. But how? Edmond Hui investigates how it all works by taking a closer look at the heart's highly efficient ventricle system. Lesson by Edmond Hui, animation by Anton Bogaty.