SU1516972A1 - Detector of heat conduction with pyroelectric - Google Patents

Abstract

The invention relates to gas chromatography, namely, thermal conductivity detectors for measuring the flow concentration of the separated substances at the outlet of the chromatographic column. The aim of the invention is to reduce the threshold of sensitivity. The thermal conductivity detector with pyroelectric has a housing with measuring chambers and a heater. The detector housing is additionally equipped with a metal shielding housing. Between the housings there is an air gap filled with a carrier gas. 1 il.

Description

The invention relates to gas chromatography, namely to thermal conductivity detectors for measuring the concentration of the separated substances at the outlet of the chromatographic column.

The aim of the invention is to reduce the sensitivity threshold of the detector.

The drawing shows the design of the proposed detector.

Cylindrical pyroelectrics 1 (one pyroelectric element divided into two parts) are placed symmetrically in the inner case 2 and have good thermal and electrical contacts with the outer electrodes. The core ° trigger 2 is electrically isolated from the second outer casing 3 by insulators 4 and is separated from it by a stream of gas carrier passing through the gap

between the shells. Inside the cylinder formed by the pyroelectrics I and the housing 2, a cylindrical heater 6 is placed along its axis with a gap relative to the internal electrodes of the pyroelectrics 5. The detector signal is taken from the internal electrodes of the pyroelectrics 5 and fed to the input of the amplifier 7. To simplify the design, one of the electrodes and one of the inputs the amplifier is connected to the housing as shown in the drawing. The carrier gas flows through the inlet tubes 8, passes through the openings 9 in the detector body 2, fills the gap between the bodies 2 and 3, and exits through the outlet.

The detector works as follows.

In the steady state, when the detector chambers formed by annular gaps between the internal electrodes of the elements and the heater pass through a stream of pure carrier gas, the four temperatures of the measuring and comparative elements are the same and are determined by the temperature of the housing and the power dissipated on the heater. the required temperature difference between the heater and the housing and the average temperature of the sensitive elements, ensuring the maximum sensitivity of the detector at this temperature, thermostating the detector housing. The electrical signals of the elements supplied to the inputs of the amplifier 7 are equal and mutually compensated. The difference signal of the amplifier is zero. When passing through the same chamber of the detector together with the carrier gas of some component of the split mixture, which has a thermal conductivity different from the thermal conductivity of the carrier gas, the temperature of the measuring surface of the corresponding sensitive element changes, which causes a change

an electrical signal of the detector by an amount proportional to the amount of the analyte, c as a result of implementing the invention, the threshold of sensitivity of the detector is 1 10 vol.% in oxygen.

Claims (1)

0 claims A thermal conductivity detector with a pyroelectric, comprising a housing with measuring chambers in which 5, a heater and sensing elements, made in the form of pyroelectrics, are placed under the boosted to the amplifier, each of which is one of its own planes, perpendicular to Q in the direction of polarization, is placed in the detector housing, and another plane parallel to the first one faces the heater housing and is separated from it by a gap filled with an analyzable gas, so that, in order to reduce the sensitivity threshold, the detector housing is equipped with an additional metal a housing, between which there is an air gap filled with a carrier gas.