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更新時間:2025-02-18 10:28:31

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Heatprobe Shown With Optional “K” Factor Attachment
Industrial/Residential Heat Loss Surveys
Building Insulation Conformance Tests
Refrigerator Insulation Testing
Boiler/Steam Pipe Heat Loss Measurements
”K” Factor Determinations
 
APPLICATION
PRINCIPLE
 
The Model HB-100 Heatprobe is a solid state, thermoelectrically powered, digital readout, heat flux measuring system. The unit is capable of directly measuring heat fluxes from 0.1 watts/meter to 1350 watts/meter ; it can therefore detect and respond to the entire practical range of heat fluxes normally encountered in the field or laboratory.
 
Measurements may be made of the total heat flow either to, or from any solid surface to which the
transducer may be attached (Fig. 1). When the transducer attains thermal equilibrium with the heat
transfer surface and its surroundings, the digital readout indicates the steady state heat flow in terms of watts/meter . Transient heat flow fluctuations having periods of five seconds or more may also be followed.
 
The “K” factors of walls or other insulated barriers may be measured with the Model HB-100. The
readout is also designed to measure temperatures of both surfaces of a wall or barrier; the readout
automatically computes the resulting surface temperature difference. With the measured heat flux
and temperature difference, the “K” factor can be determined.
 
PRINCIPLE
The flow of heat from, or to the surface whose heat flow rate is to be measured creates a small
temperature difference between the upper and lower surfaces of the transducer. These surfaces are in thermal contact with a special, miniature, high temperature thermopile which generates a direct
current signal from the temperature difference. The signal is directly proportional to the heat flux
through the transducer. The hundreds of thermoelectric elements in each transducer yield multi-millivolt signals which may also be measured separay by a portable potentiometer, or
recorder. The thermal resistance introduced by the transducer is normally negligible for most practical applications.
 
CALIBRATION
Each Heatprobe transducer is individually calibrated at a base temperature of 75 F. An absolute calibration technique is used to determine the transducer constant to the required accuracy. (ASTM C177-76, mod.)
 
OPERATION
The increasing emphasis on energy conservation has prompted renewed interest in the heat
transport characteristics of both commercial and residential buildings. To satisfy the requirement
for quantitatively establishing relative heat losses through structural components, a portable system for directly measuring heat losses is necessary. In addition to adequate sensitivity and accuracy, the system should rapidly respond in order that a series of surface heat loss determinations be made under a fixed set of environmental conditions. It is only under these circumstances that a true comparison can be made between the heat transfer characteristics of the various building components. The Model HB-100 has been designed to satisfy most requirements for such structural heat loss determinations.
To conduct a local heat loss survey, the heat flux probe is attached to the heat transfer surface
either by means of tape, or a demountable adhesive (Fig. 1). The signal cable is conducted
parallel with the surface to the readout/operator, as shown in Figure 1. The operator should minimize his thermal view of the transducer because of its sensitivity to body heat. Measurements can be taken as soon as the transducer reaches thermal equilibrium. Air currents may cause minor
fluctuations, however, these can be averaged out over several minutes.
 
To determine the thermal conductance of a wall or barrier, the temperature sensors are attached opposite each other on both sides of the barrier through which a steady flow of heat exists.
 
The Heat flux probe is attached to the interior wall surface immediay adjacent to the temperature sensor (Fig. 3). Heat flux and temperature difference data are read out consecutively on the digital meter.
 
The thermal conductance of heavily insulated walls which undergo temperature transients may also be measured by means of periodic averaging over several transients.
 

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