Energy Losses In Piping Elements Didactic Equipment Teaching Fluids Engineering Experiment Equipment

AFF023 Energy Losses In Piping Elements Didactic Equipment Teaching Fluids Engineering Experiment Equipment

1. Introduction to the equipment
1.1 Overview
In engineering, pipeline transport of fluid is an extremely important method. When the fluid flows in the pipeline, energy loss will occur. The energy loss of the fluid in the pipeline mainly includes two forms: along-the-line resistance loss and local resistance loss. Along-the-line resistance loss is mainly caused by the friction between the pipeline and the fluid, while local resistance loss is caused by the presence of various other pipe fittings in the pipeline, such as elbows, sudden expansion or contraction of the flow channel, valves, tees, etc. When the fluid flows through the local area of these pipelines, the flow velocity and direction are forced to change sharply, resulting in collision of fluid particles, vortices, secondary flows, flow separation and reattachment to the wall. Compared with along-the-line resistance loss, local resistance loss is much larger, so the focus will be on local resistance loss.
Energy Loss in Pipeline Components (Add-on Module) is an experimental device for studying the local resistance loss of various pipeline components.
1.2 Features
(1) The device has a variety of experimental components and rich functions.
(2) The device is brief and beautiful, and the principle logo is easy to understand.
(3) The device is made of high-quality materials and has a longer service life.
(4) The device adopts a modular design and is expandable.
2. Technical parameters
Dimensions:930mmx760mmx1080mm
Weight:42KGS
Working conditions: Ambient temperature 10℃～30℃, relative humidity <75% (25℃).


3. Component list and detailed introduction
3.1 Main part
No.    Name
1    Narrow pipe elbow
2    Pipe angle 
3    Exhaust valve
4    Six-tube differential pressure gauge
5    Expanding pipe
6    Bourdon tube pressure gauge
7    Contracting pipe
8    Wide pipe elbow
9    Flow regulating ball valve 
10    Water outlet 
11    Water inlet 
12    Right-angle elbow 
3.2 Equipment Configuration List
No.    Name    Quantity
Component 1    Narrow pipe elbow    1
Component 2    Pipe angle    1
Component 3    Exhaust valve    1
Component 4    Six-tube differential pressure gauge    1
Component 5    Expanding pipe    1
Component 6    Bourdon tube pressure gauge    1
Component 7    Contracting pipe    1
Component 8    Wide pipe elbow    1
Component 9    Flow regulating ball valve    1
Component 10    Right-angle elbow    1
3.3 Accessories
No.    Name     Quantity
1    Transparent hard tube    1 set
4. Experiment list
Experiment 1: Measuring the energy loss and loss coefficient of right-angle elbow pipe components
Experiment 2: Measuring the energy loss and loss coefficient of pipe contraction pipe components
Experiment 3: Measuring the energy loss and loss coefficient of pipe expansion pipe components
Experiment 4: Measuring the energy loss and loss coefficient of angle pipe components
Experiment 5: Measuring the energy loss and loss coefficient of narrow pipe elbow pipe components
Experiment 6: Measuring the energy loss and loss coefficient of wide pipe elbow pipe components
Experiment 7: Measuring the energy loss and loss coefficient of flow control ball valve pipe components