Using exhaust tubing, Combustible gas detection – RKI Instruments EAGLE 2 Manual User Manual

EAGLE 2 Operator’s Manual

Measuring Mode, Normal Operation • 31

The chart below illustrates how response time is affected by the sample hose
length.

Using Exhaust Tubing

The EAGLE 2’s exhaust fitting has a female 10-32 thread to allow for the
installation of a hose barb fitting with a 10-32 thread to which a flexible
exhaust tube can be connected. If you utilize this feature, the tubing used
must have a minimum internal diameter of 1/8 inch. RKI Instruments, Inc.
recommends using flexible polyurethane tubing with a maximum exhaust
tube length of 20 feet. Consult RKI Instruments, Inc. for exhaust tubing
lengths longer than 20 feet.

Combustible Gas Detection

There are three issues to keep in mind when monitoring for combustible gas.

•

The catalytic combustible sensor will respond to any combustible gas.
The standard calibration gas for the EAGLE 2 catalytic combustible
channel is methane (CH

4

). If the instrument is calibrated to a different

combustible gas, such as hexane or propane, the gas name for the catalytic
combustible channel will reflect the target gas.

The table below lists the conversion factors for several hydrocarbon gases
if the EAGLE 2 is calibrated to methane. To use this table, multiply the
display reading on the combustible gas channel by the factor in the
appropriate row to obtain the actual gas concentration. For example, if you
are detecting pentane and the display reads 10% LEL for the catalytic
combustible channel, you actually have 10% LEL x 1.38 = 13.8% LEL
pentane present.

Table 4: EAGLE 2 Response Time vs. Sample Hose Length

Hose Used

Typical Time to 90%

of Response (T90)

Probe Only

12 seconds

Probe & 5 Foot Hose

15 seconds

Probe & 25 Foot Hose

25 seconds

Probe & 50 Foot Hose

35 seconds

Probe & 75 Foot Hose

45 seconds

Probe & 100 Foot Hose

60 seconds

Probe & 125 Foot Hose

75 seconds