Fm Laboratory Equipments 5M Flume, Hydraulic Bench, Discharge Over A Notch, Centrifugal Pump Test Set, Versatile Data Acquisition System, In Fm Laboratory , Laboratory Equipment , 5.0 M Flume Description The Experimental Flume With A Closed Water Circuit Has A Cross-Section Of 309X450mm. The Length Of The Experimental Section Is 5M. The Side Walls Of The Experimental Section Are Made Of Tempered Glass, Which Allows Excellent Observation Of The Experiments. All Components That Come Into Contact With Water Are Made Of Corrosion-Resistant Materials ( Stainless Steel ) . The Inlet Element Is Designed So That The Flow Enters The Experimental Section With Very Little Turbulence. The Inclination Of The Experimental Flume Can Be Finely Adjusted To Allow Simulation Of Slope And To Create A Uniform Flow At A Constant Discharge Depth. A Wide Selection Of Models, Such As Weirs, Piers, Flow-Measuring Flumes Or A Wave Generator Are Available As Accessories And Ensure A Comprehensive Programme Of Experiments. Most Models Are Quickly And Safely Bolted To The Bottom Of The Experimental Section Specification 1. The Principles Of Open-Channel Flow 2. Experimental Flume With Experimental Section, Inlet And Outlet Element And Closed Water Circuit 3. Length Of The Experimental Section 5M 4. Smoothly Adjustable Inclination Of The Experimental Section 5. Experimental Section With 20 Evenly Spaced Threaded Holes On The Bottom For Installing Models Or For Water Level Measurement Using Pressure 6. Side Walls Of The Experimental Section Are Made Of Tempered Glass For Excellent Observation Of The Experiments 7. Experimental Section With Guide Rails For The Optionally Available Instrument Carrier. 8. All Surfaces In Contact With Water Are Made Of Corrosion-Resistant Materials 9. Flow-Optimised Inlet Element For Low-Turbulence Entry Into The Experimental Section 10. Closed Water Circuit With 3 Water Tanks, Pump, Electromagnetic Flow Sensor And Flow Control 11. Water Tanks Form A Gallery That Can Be Walked On. Technical Data Experimental Section ? Length: 5M ? Flow Cross-Section W X H: 309X450mm ? Inclination Adjustment: -0.5…+2.5% ? Flow Bed Made Of 10Mm Thick Stainless Steel-304 Grade ? Side Walls: Tempered Glass 12Mm Thick ? Bottom Support Of Flow Bed: Rectangular Pipe Made Of M.S 300 X250mm 3 Tanks-2 Mm Thickness Made Of Stainless Steel-304 Grade ? 1100L Each Pump ? Power Consumption: 4Kw ? Max. Flow Rate: 132M3 / H ? Max. Head: 16.1M ? Speed: 1450Min-1 Jacking System Spindle Lifting Worm Gear Jack Measuring Ranges Flow Rate: 5.4…130M3 / H 400V, 50Hz, 3 Phases Flume Mounted On Two Twin Post Stand Made Of 100 X 100 Mm Square Pipe Welded On 12 Mm Thick M.S Plates. Accessories Included Sluice Gate Radial Gate Set Of Plate Weirs, Four Types Broad-Crested Weir Crump Weir Sill Culvert Set Of Piers, Seven Profiles Venturi Flume Wave Generator Set Of Beaches Digital Level Gauge Pitotstatic Tube Ten Tube Manometers Instrument Carrier , Discharge Over Notch Description The Set Of Weirs Contains Two Different Plate Weirs As Sharp-Crested Weirs. The Two Weirs Are Typical Measuring Weirs With Defined Weir Openings: In The Thomson Weir The Opening Is Triangular; In The Rehbock Weir It Is Rectangular. The Weirs Are Installed And Screwed In Place Into The Base Module For Experiments In Fluid Mechanics. The Weir Can Be Installed And Replaced Quickly And Easily. Water From The Small Experimental Flume In Base Module For Experiments In Fluid Mechanics Flows Over The Weir Being Investigated. A Level Gauge For Detecting The Head Is Included In The Delivery. The Head Is Used To Determine The Discharge, Which Is Then Compared To The Measured Values From Base Module For Experiments In Fluid Mechanics. Learning Objectives / Experiments ? Free Overfall At The Sharp-Crested Weir ? Plate Weirs As Measuring Weirs ? Determining The Discharge Coefficient ? Comparison Of Measuring Weirs ( Rhebok, Thomson ) ? Determining The Discharge ? Comparison Of Theoretical And Measured Discharge Specification 1. Discharge Measurement In Open Channels Using 2 Measuring Weirs 2. Measuring Weirs For Installation In The Base Module For Experiments In Fluid Mechanics Experimental Flume 3. Thomson Weir With V-Profile 4. Rehbock Weir With Rectangular Profile 5. Level Gauge With Scale For Determining The Head 6. Level Gauge Can Be Positioned Anywhere Along The Experimental Flume Technical Data Weirs ? Material: Stainless Steel ? Self-Sealing ? Rectangular Profile ? Lxw Of The Section: 60Mm ? V-Profile ? Angle Of The Section: 90° ? Height Of The Section: 60Mm Measuring Ranges ? Head: 0…200Mm Required For Operation Base Module For Experiments In Fluid Mechanics. , Hydraulic Bench. Description The Base Module For Experiments In Fluid Mechanics Provides The Basic Equipment For Individual Experiments: The Supply Of Water In The Closed Circuit; The Determination Of Volumetric Flow Rate And The Positioning Of The Experimental Unit On The Working Surface Of The Base Module And The Collection Of Dripping Water. The Closed Water Circuit Consists Of The Underlying Storage Tank With A Powerful Submersible Pump And The Measuring Tank Arranged Above, In Which The Returning Water Is Collected. The Measuring Tank Is Stepped, For Larger And Smaller Volumetric Flow Rates. A Measuring Beaker Is Used For Very Small Volumetric Flow Rates. The Volumetric Flow Rates Are Measured Using A Stopwatch. The Top Work Surface Enables The Various Experimental Units To Be Easily And Safely Positioned. A Small Flume Is Integrated At The Centre In The Work Surface, In Which Experiments With Weirsare Conducted Specification 1. Base Module For Supplying Experimental Units In Fluid Mechanics 2. Closed Water Circuit With Storage Tank, Submersible Pump And Measuring Tank 3. Measuring Tank Divided In Two For Volumetric Flow Rate Measurements 4. Measuring Beaker With Scale For Very Small Volumetric Flow Rates 5. Measurement Of Volumetric Flow Rates By Using A Stopwatch 6. Work Surface With Integrated Flume For Experiments With Weirs 7. Work Surface With Inside Edge For Safe Placement Of The Accessory And For Collecting The Dripping Water Storage Tank, Measuring Tank And Work Surface Made Of Corrosive Resistant Material. Technical Data Submersible Pump • Power Consumption: 250W • Max. Flow Rate: 150L / Min • Max. Head: 7, 6M Storage Tank, Capacity: 180L Measuring Tank • At Large Volumetric Flow Rates: 40L • At Small Volumetric Flow Rates: 10L Flume At Centre Of Top Tray • Lxwxh: 530X150x180mm Measuring Beaker With Scale For Very Small Volumetric Flow Rates • Capacity: 2L Stopwatch • Measuring Range: 0…9H 59Min 59Sec , Hydraulic Bench. Description The Base Module For Experiments In Fluid Mechanics Provides The Basic Equipment For Individual Experiments: The Supply Of Water In The Closed Circuit; The Determination Of Volumetric Flow Rate And The Positioning Of The Experimental Unit On The Working Surface Of The Base Module And The Collection Of Dripping Water. The Closed Water Circuit Consists Of The Underlying Storage Tank With A Powerful Submersible Pump And The Measuring Tank Arranged Above, In Which The Returning Water Is Collected. The Measuring Tank Is Stepped, For Larger And Smaller Volumetric Flow Rates. A Measuring Beaker Is Used For Very Small Volumetric Flow Rates. The Volumetric Flow Rates Are Measured Using A Stopwatch. The Top Work Surface Enables The Various Experimental Units To Be Easily And Safely Positioned. A Small Flume Is Integrated At The Centre In The Work Surface, In Which Experiments With Weirs Are Conducted Specification 1. Base Module For Supplying Experimental Units In Fluid Mechanics 2. Closed Water Circuit With Storage Tank, Submersible Pump And Measuring Tank 3. Measuring Tank Divided In Two For Volumetric Flow Rate Measurements 4. Measuring Beaker With Scale For Very Small Volumetric Flow Rates 5. Measurement Of Volumetric Flow Rates By Using A Stopwatch 6. Work Surface With Integrated Flume For Experiments With Weirs 7. Work Surface With Inside Edge For Safe Placement Of The Accessory And For Collecting The Dripping Water Storage Tank, Measuring Tank And Work Surface Made Of Corrosive Resistant Material. Technical Data Submersible Pump • Power Consumption: 250W • Max. Flow Rate: 150L / Min • Max. Head: 7.6M Storage Tank, Capacity: 180L Measuring Tank • At Large Volumetric Flow Rates: 40L • At Small Volumetric Flow Rates: 10L Flume At Centre Of Top Tray • Lxwxh: 530X150x180mm Measuring Beaker With Scale For Very Small Volumetric Flow Rates • Capacity: 2L Stopwatch • Measuring Range: 0…9H 59Min 59Sec , Centrifugal Pump Test Set Description The Experimental Unit Includes A Self-Priming Centrifugal Pump, A Ball Valve On The Outlet Side And Manometers On The Inlet And Outlet Side. It Is Driven By An Asynchronous Motor. The Speed Is Infinitely Adjustable By Using A Frequency Converter. A Ball Valve Is Used To Adjust The Head. In Experiments, The Operating Behaviour Of The Pump As A Function Of The Flow Rate Is Studied And Displayed In Characteristic Curves. The Motor’S Speed And Electrical Power Are Displayed Digitally. Pressures On The Inlet And Outlet Side Are Displayed On Two Manometers. The Experimental Unit Is Positioned Easily And Securely On The Work Surface Of The Base Module For Experiments In Fluid Mechanics. The Pump Draws In Water From The Tank On The Base Module For Experiments In Fluid Mechanics. The Flow Rate Is Determined Volumetrically By Flowing Back Into The Measuring Tank Of Base Module For Experiments In Fluid Mechanics. Specification 1. Investigation Of A Centrifugal Pump 2. Drive With Variable Speed Via Frequency Converter 3. Ball Valve To Adjust The Head 4. Manometers On The Inlet And Outlet Side Of The Pump 5. Digital Display Of Speed And Power 6. Flow Rate Determined By Base Module For Experiments In Fluid Mechanics 7. Water Supply Using Base Module For Experiments In Fluid Mechanics 8. The Pump Is Controlled By Plc Via Touch Screen 9. Display And Evaluation Of The Measured Values As Well As Operation Of The Unit Via Software 10. Software With Control Functions And Data Acquisition Via Usb Under Windows 8.1, 10 Technical Data Centrifugal Pump, Self-Priming ? Max. Flow Rate: 2700L / H ? Max. Head: 36M Asynchronous Motor ? Nominal Power: 450W Measuring Ranges ? Pressure ( Outlet ) : -1…5Bar ? Pressure ( Inlet ) : -1…1, 5Bar ? Speed: 0…3000Min-1 ? Power: 0…1000W 230V, 50Hz, 1 Phase Required For Operation Base Module For Experiments In Fluid Mechanics. . , Laboratory Trolley Description The Laboratory Trolley With Lockable Enables To Easily Mount Computer System. When Needed, Moving It Comfortably To Another Place. Accessories Like Specimens, Tools Or Manuals Can Be Stored In Trolly. Technical Data Top Area, Lxw: 1320X780mm , Computer System Minimum Computer Hardware Required: Processor: Intel Core 7Th Generation I7-7700 Processor ( Quad Core, Up To 3.6 Ghz, 8M Cache, 65W ) , Ram: 8Gb 2400 Mhz Ddr4 Non-Ecc 3-Year Manufacturer Warranty, Dvd Drive ( Read And Writes To Dvd / Cd ) 1 Tb 3.5 Inch Sata Hard Drive ( 7200Rpm )
