CS262136B1 - Wiring to determine the ash content of ash - Google Patents

Abstract

The solution consists in that a sample of ash with unburned fuel is burned in a closed known amount of air and oxygen and the unburned fuel content is determined mammometrically under pressure changes after combustion and after absorption of carbon dioxide. The solution can be used in heating plants, power plants and in the operation of gasification generator stations to determine the proportion of unburned carbon, unburned fuel, in ashes from solid fuels.

Description

The invention relates to a circuit for determining the content of carbon unburned residue in ash from solid fuels and to solve the problem using a manometric principle where the sample is burned in a known closed volume of circulating gas.

According to known methods, the butt content is determined either gravimetrically by weighing the air-annealing residue or in oxygen, or also gravimetrically as a determination of residual elemental carbon by weighing the absorbed carbon dioxide formed by burning the sample in oxygen. A common disadvantage of the described procedures is the need for weighing as an output analytical operation. This disadvantage is overcome by other known connections used in dedicated analytical instruments, but at the expense of considerable complexity in single-use applications. These analytical instruments, elementary analyzers, use weighted gas analyzers in the replacement circuit.

Disadvantages of the present invention are the fact that a sliding furnace reactor is connected in a closed circuit to a thermostatic tank with a thermometer and a pressure gauge, further connected to a circulation pump and bypassing the reactor via a carbon dioxide absorber.

The advantage is the combination of simple wiring, measurement while eliminating the need to weigh the rest to calculate the result. A further advantage of the invention is the increased effect that in addition to determining the fuel content of the furnace, the oxygen consumption for ash oxidation can be determined in a single operation, and corrections for ash hydrate water content and / or residual hydrogen content in the butt and / or the sulfur content of the butt. An example of a circuit according to the invention is shown in the drawing.

The circuit according to the invention consists of a reactor 1 provided with a sliding furnace 2 connected in a closed circuit to a thermostatic gas tank 3 connected to a thermometer 4 and a precision manometer 5, further connected to a circulation pump 6 and via a carbon dioxide absorber 7 with bypass back to the reactor 1, optionally with a gas analyzer 8 connected.

The quartz reactor 1 was charged with 1 g of ash. The total free gas volume of the device was 3.65 L. The device was filled with air at atmospheric pressure. The sliding furnace 2 in the off-specimen position was heated to 800 ° C and the pressure in the plant was awaited while the blast pump 6 and the temperature of the thermostatic tank 3 were switched on at 25 ° C. Then, the movable furnace 2 was moved to heat the sample. The sample was burned in 15 minutes by passing through the air circulating apparatus bypass the carbon dioxide absorber 7. The pressure in the device has dropped by 0.5 kPa. A carbon dioxide absorber (7) was then introduced into the circulating gas stream and a pressure drop of 0.2 bar was detected. The results were used to determine the oxygen consumption for the ash oxidation of 28.6 mg of oxygen per gram of ash and the content of the butt of 15% by weight.

In particular, the invention can be used to determine unburned carbon residue in power plant ashes from gas generators.

Claims (2)

SUBJECT Wiring for determining the butt content in ash, characterized in that the reactor (1j provided with a sliding furnace (2) is connected in a closed circuit to a thermostatic tank (3j with a thermometer (4) and a pressure gauge '(5) further connected to a circulation pump YNALEZU (6 j and through the absorber (7j carbon dioxide with bypass back to the reactor (1)). Connection according to Claim 1, characterized in that a gas analyzer (8) is connected to a closed gas circuit.