Experimental device for simulating isothermal coupling process of two airflows under underground railway environment by use of liquid

An experimental device and subway technology, applied in the field of experimental devices, can solve the problems of large geometric size, multiple spaces, and large differences in gas scale experimental devices, and achieve reliable test results, data, convenient adjustment of working conditions, and moderate size. Effect

Inactive Publication Date: 2012-06-20
UNIV OF SHANGHAI FOR SCI & TECH
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AI Technical Summary

Problems solved by technology

On-site measurement is restricted by on-site factors such as vehicle conditions during the test period and passengers at the station, and it is difficult to analyze the changing laws of physical phenomena; numerical simulation is limited by the establishment of physical models and the setting of boundary conditions, and the reliability of the research results needs to be verified by other studies. Verification of means; it is more complicated to build a subway gas scale model test bench including interval tunnels, platforms and station halls, and the change law of airflow in small sizes is quite different from the size of the prototype
In addition, since the viscosity coefficient of air is an order of magnitude smaller than that of water, the geometric size of the gas scale experiment device is relatively large and takes up more space

Method used

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  • Experimental device for simulating isothermal coupling process of two airflows under underground railway environment by use of liquid
  • Experimental device for simulating isothermal coupling process of two airflows under underground railway environment by use of liquid
  • Experimental device for simulating isothermal coupling process of two airflows under underground railway environment by use of liquid

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] Example 1: Simulating the isothermal coupling condition of a single air supply nozzle and piston air

[0027] Such as figure 1 Shut off the water pump 7 and valve 8 on the water pipe port 11 and water pipe port 13, and turn on the water pump 7 and valve 8 on the water pipe port 12. Taking the platform floor of Shanghai Nanjing West Road subway station as the prototype, see Table 1 for the geometric dimensions of the prototype and the model. . Through analysis and calculation, in order to meet the motion similarity between the prototype and the experimental device of the isothermal coupling process of the two airflows in the liquid simulation subway environment of the present invention, it is only necessary to satisfy the Reynolds number equality in the dynamic similarity or the flow in the model is in the self-modeling area. Table 2 shows the model water velocity and flow rate corresponding to the adjustment of the wind speed of the air supply jet while keeping the win...

Embodiment 2

[0039] Example 2: Simulation of multiple air supply nozzles and piston air isothermal coupling conditions

[0040] This example is to figure 1 The water pipe mouth 11, the water pipe mouth 12, and the water pipe mouth 13 of the middle closed water tank are all opened, and its main difference from Embodiment 1 is that it can simulate the velocity field of multiple nozzles at different positions of the platform and the isothermal coupling of the piston wind, other principles and implementation Process is identical with embodiment 1.

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Abstract

The invention relates to an experimental device for simulating an isothermal coupling process of two airflows under an underground railway environment by use of a liquid. Three water pipe openings are arranged on a sealed water tank of a model station system C equidistantly, a backwater opening and four overflow openings are arranged on the right sidewall of the sealed water tank, and a water inlet is arranged on the left sidewall of the sealed water tank; an underground railway station model piston wind system A is as follows: the backwater opening of the right sidewall of the sealed water tank is sequentially connected with a water pump, a valve I, an electric regulating valve, a rotor flowmeter I and a valve II through a pipeline, and the water inlet of the left sidewall of the sealed water tank is connected with the distal end of the pipeline; and a model station ventilation jetting system B comprises a water storage tank provided with three water outlets, wherein the three water outlets are respectively sequentially connected with the water pump, the valve and the rotor flowmeter through pipelines, and a water pipe opening I, a water pipe opening II and a water pipe opening II of the sealed water tank are respectively connected with the distal ends of the three pipelines. A liquid model experimental table utilized by the experimental device disclosed by the invention has a suitable size, and the result is reliable, so that effective manners are provided for complex station airflow organization research in a design operation process of the underground railway.

Description

technical field [0001] The invention relates to the field of thermal environment research of indoor airflow organization, and in particular relates to using liquid to simulate two airflows in the thermal environment of a subway, that is, the platform air supply jet (steady-state airflow) and the piston wind (intermittent airflow) generated by the train running in the section tunnel. Forced unsteady airflow), an experimental device with isothermal coupling on the platform. Background technique [0002] As an important means of transportation, the subway is widely used in large and medium-sized cities at home and abroad because of its fast, safe, convenient and pollution-free advantages. The coupling of the piston wind caused by the pressure difference between the front and rear of the train running in the section and the supply air flow of the station ventilation system is a typical feature of the airflow organization of the subway thermal environment, which widely exists in ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01M9/00
Inventor 王丽慧杜晓明沈丽宋洁
Owner UNIV OF SHANGHAI FOR SCI & TECH
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