Product Introduction:
This product is used in conjunction with the basic experimental platform of fluid mechanics to conduct experimental research on resistance loss and local head loss along the way in “Fluid Mechanics”. The product is equipped with different valves, pipes of different diameters, elbows of different radii, flow meters, pipes of different roughness, pipes and fittings, and is used in conjunction with a liquid column differential pressure gauge to measure the relative head loss during fluid transportation. The flow rate during the experimental process can be measured by orifice flow meters, Venturi flow meters, and pitot tube flow meters, while demonstrating the actual operation process of flow measurement using different flow meters; By flowing through sudden expansion, contraction, valves, filters, elbows, etc., the velocity distribution changes caused by the sharp changes in the flow channel boundary, and calculating the local head loss;
detailed information
| PRODUCT MODEL | H130 | product name | Flow Resistance Experiment Apparatus |
| Product specifications | Length 2800mm/Width 800mm/Height 1810mm | product material | Purple Copper T2 |
| Usage environment | 0 ℃ ≤ Temperature ≤ 45 ℃ | Input power supply | Voltage 220V ± 5% rated power 10W frequency 50Hz |
| Belonging series | fluid mechanics | Cooperate with modules | H100 |
| Experimental function: |
| 1、Can be used to study the local resistance loss law of fluid flow through sudden expansion, contraction, valves, filters, and elbows; 2、It can be used to study the resistance law of fluid flow along smooth, different roughness, and different pipe diameters; 3、Can be used to study the use and local resistance measurement of various common flow meters such as orifice plates, Venturi tubes, pitot tubes, etc; 4、Can be used to master the calculation methods and skills of local losses and local resistance loss coefficients; 5、Can be used to master the calculation methods of pipeline loss factor and pipe diameter roughness along the way; 6、Can be used to analyze the head loss law of constant flow in pipelines, the law of loss factor changing with Reynolds number, and verify the relationship between head loss and average flow velocity; |