RU102386U1 - INSTALLATION FOR DETERMINING SOLID FUEL STRENGTH - Google Patents

Abstract

 Installation for determining the strength of solid fuel during combustion, consisting of a heating device with a device for measuring temperature and time, a receiving device, a vertically mounted drum, measuring containers, scales for measuring the mass of fuel during combustion, a device for controlling the temperature regime, for example, a damper and a fan, a loading device in the combustion process, made, for example, in the form of disks mounted on the axis of the drum over it, characterized in that the measuring container put on hangers between the filling device and the weights mounted on the installation platform, the suspension dimensional container provided with eccentric devices and equipped with handles for lifting and lowering the measuring container to the height of the eccentric stroke, providing smooth descent measuring container on the scales.

Description

The utility model relates to the field of measurement, namely to measuring the quality of fuel during combustion in laboratory research. The objective of the utility model is to provide the ability to check the quality of fuel in a facility that reproduces conditions during the melting period in a shaft furnace.

A known installation described in [1], consisting of a receiving tank, weights, a drum for determining strength according to GOST 15490-70, a heating device with a device for controlling time and temperature, a sieve and a baking sheet. The installation is equipped with a drum with holes in the side walls, which is driven into rotation. Small pieces are sifted out, poured down. A coke sample is placed inside a drum of a certain size, the drum rotates at a given speed. Pieces of fuel are carried away by the inner wall of the drum up, then fall and collapse. Strength is characterized by particle size distribution after abrasion and often by the amount of fines. The larger the large pieces and the smaller the smaller, the greater the strength of the fuel.

The closest is the setup described in [2]. This installation for determining the strength of solid fuels, consisting of a heating device with a device for measuring temperature and time, a receiving device, a drum, a balance for measuring the mass of fuel during combustion, a device for controlling the temperature regime, for example, a damper and a fan, is additionally equipped with a loading device , made, for example, in the form of disks for loading a layer of fuel during combustion, mounted on the axis of the drum, while the drum is mounted vertically. Installation works as follows. Fuel mass M _{0 is} loaded into the drum, set to backfill by stringing a certain amount of cargo in the form of disks onto the bar.

The fuel is ignited through the window, the window is closed, the fan is turned on to supply air through the pipe for combustion, a certain burning time Δt is fixed so that approximately half of the initial weight of the fuel burns out ΔM = (0.4 ... 0.6) M ₀ . At Δt = const, the ΔM value will be determined by the gasification rate of the studied fuel and will be different for different types of fuel. After the time Δt is measured with a ruler, the height of the burnt and settled down fuel layer. Until the measurement of the height differences Δh, the fan is turned off, after determining Δh the gate is opened, the grate is reclined on the hinge and the remaining fuel is poured into the container and weighed to determine the final mass M ₁ . By the change in the mass of fuel and the bulk density of fuel during combustion, the strength of the initially loaded fuel is judged. The relative strength of the fuel under load depends on the height of the burnt and settled fuel, which is measured using a ruler. The disadvantage of the installation is the fact that the remaining fuel after turning the grate in one gulp falls out into a container located on the platform of the scale. Impact dynamics reduce the accuracy of weighing, as well as the reliability of the balance, which leads to insufficient accuracy in determining the strength of solid fuels.

The objective of the utility model is to increase the reliability of determining the strength of solid fuels.

For this, a laboratory setup for determining the strength of solid fuels, consisting of a heating device with a device for measuring temperature and time, a receiving device, a drum, a measuring container, a balance for measuring the mass of fuel during combustion, a device for controlling the temperature regime, for example, a damper and a fan , a loading device, made, for example, in the form of disks for loading a layer of fuel during combustion, mounted on the axis of a vertically mounted drum, measuring containers it is placed on the suspensions between the filling device and the scales mounted on the installation platform, the measuring container suspension is equipped with eccentric devices for raising and lowering the containers to the height of the eccentric, which ensures smooth lowering to the platform.

The drawing shows the inventive laboratory installation. The installation consists of a cylindrical body containing a drum 1, which is installed on top of the grate 2. After the fuel is charged over the drum, a rod 3 connected to the grate 4 is mounted on which the disks of the loading device are strung 5. The disks are supported on a stop 6. A set of weights in the form of disks or pancakes are installed on top of the drum 1 coaxially to it. The housing at the bottom contains a slide gate 7. The installation is also equipped with a measuring container 8 for fuel, which is mounted on the suspensions 9 and held with a stop 10. The suspended container can smoothly rotate on the axes of the suspension using an eccentric 11 by turning the handle 12. Under the container, scales 14 are mounted on the mounting support 13 of the installation.

Installation works as follows. The fuel is loaded into the drum 1, the mass is measured, the fuel is ignited through the window, the window is closed, the fan is turned on to supply air through the pipe for combustion, and the mass difference of the fuel will be different for different types of fuel. Then the fan is turned off, the slide gate 7 is opened, the grate 2 leans back on the hinge and the remaining fuel is poured into the container 8, which is located on the eccentric suspension 9. After filling the container, turning the handle 12 of the eccentric 11 smoothly lowers onto the weighing platform 14 to determine the mass of the remaining fuel.

The technical result is to increase the reliability of the measurement by ensuring the smoothness of the supply of containers with fuel for weighing.

1. G. G. Efimenko, A. A. Gimmelfarb, V. E. Levchenko, Iron metallurgy, “Higher school”, Kiev, 1970, p. 39-40

2. RF Pat. No. 96963 IPC G01N 1/18, publ. 08/20/10

Claims (1)

Installation for determining the strength of solid fuel during combustion, consisting of a heating device with a device for measuring temperature and time, a receiving device, a vertically mounted drum, measuring containers, scales for measuring the mass of fuel during combustion, a device for controlling the temperature regime, for example, a damper and a fan, a loading device in the combustion process, made, for example, in the form of disks mounted on the axis of the drum over it, characterized in that the measuring container put on hangers between the filling device and the weights mounted on platform installation, the measuring suspension provided with eccentric packagings and devices equipped with handles for lifting and lowering the measuring container to the height of the eccentric stroke, providing smooth descent measuring container on the scales.