Maintaining The Μecd; Important Safety Information About The Μecd - Agilent Technologies 7820A Manual

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Maintaining the µECD

Important Safety Information About the µECD

WA RN IN G

192

The µECD contains a cell plated with

The beta particles released at the energy level in the detector

have little penetrating power—the surface layer of the skin or a

few sheets of paper will stop most of them—but they may be

hazardous if the isotope is ingested or inhaled. For this reason,

handle the cell with care. Cap the detector inlet and outlet

fittings when the detector is not in use. Never introduce

corrosive chemicals into the detector. Vent detector exhaust

outside the laboratory environment.

Refer to the safety documentation provided with the detector

for important details about safety, maintenance, and

compliance with local government regulation.

Materials that may react with the

volatile products or to cause physical degradation of the plated

film, must be avoided. These materials include oxidizing

compounds, acids, wet halogens, wet nitric acid, ammonium

hydroxide, hydrogen sulfide, PCBs, and carbon monoxide. This list

is not exhaustive but indicates the kinds of compounds that may

cause damage to

Ni detectors.

In the extremely unlikely event that both the oven and the

detector-heated zone should go into thermal runaway (maximum,

uncontrolled heating in excess of 400 °C) at the same time and the

detector remains exposed to this condition for more than 12 hours,

take the following steps:

After turning off the main power and allowing the instrument to

cool, cap the detector inlet and exhaust vent openings. Wear

disposable plastic gloves and observe normal laboratory safety

precautions.

Return the cell for disposal, following directions included with

the License Verification Form (part number 19233-90750).

Include a letter stating the condition of abuse.

It is unlikely, even in this very unusual situation, that radioactive

material will escape the cell. However, permanent damage to the

Ni plating within the cell is possible; therefore, the cell must be

returned for exchange.

Ni, a radioactive isotope.

Ni source, either to form

Maintaining Your GC

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