Appendix c, Standardization, Standardizing the calorimeter – Parr Instrument 6100 User Manual

C

Standardization

P a r r I n s t r u m e n t C o m p a n y

52

a

PPendix

c

Standardization

Standardizing the Calorimeter

The Energy Equivalent Factor

The term “standardization”, as used here, denotes
the operation of the calorimeter on a standard
sample from which the energy equivalent or effec-
tive heat capacity of the system can be determined.
The energy equivalent, W or EE of the calorimeter
is the energy required to raise the temperature one
degree, usually expressed as calories per degree
Celsius. Standardization tests should be repeated
after changing any parts of the calorimeter, and
occasionally as a check on both the calorimeter and
operating technique.

Standardization Procedure

The procedure for a standardization test is exactly
the same as for testing a fuel sample. Use a pellet
of calorific grade benzoic acid weighing not less
than 0.9 nor more than 1.1 grams. The corrected
temperature rise, T, is determined from the observed
test data and the bomb washings are titrated to
determine the nitric acid correction. The energy
equivalent is computed by substituting the follow-
ing equation:

W =

Hm + e1 + e2 + e3

T

Where:
W

=

Energy equivalent of the calo-
rimeter in calories per °C.

H

=

Heat of combustion of the
standard benzoic acid sample in
calories per gram.

m

=

Mass of the sample.

T

=

Temperature rise in °C.

e1 =

Correction for heat of formation
of nitric acid in calories.

e2 =

Correction for sulfur which is
usually 0.

e3 =

Correction for heating wire and
combustion of cotton thread or
fuse wire as appropriate.

Note:

The 6100 performs all the necessary

calculations once all of the corrections are

entered.

Standard Materials

A bottle of 100 one-gram benzoic acid pellets (Part
No. 3415) is furnished with each calorimeter for
standardizing purposes. The Parr benzoic acid has
been calibrated against NIST benzoic acid. Addition-
al benzoic acid pellets can be obtained from Parr.
For very high precision measurements, a primary
standard benzoic acid powder can be purchased
from the National Institute of Standards & Technol-
ogy, Washington, D.C.

It is not common to have sulfur in standard mate-
rials, or to use spikes in standardizations, but the
capabilities have been included in this calorimeter.

Users should take great care to ensure that the con-
ditions during standardization runs and determina-
tions are as identical as possible.

Caution!

Benzoic acid must always be compressed

into a pellet before it is burned in an oxygen

bomb to avoid possible damage from rapid

combustion of the loose powder. This is best

accomplished by using a 2811 Pellet Press.

Automatic Statistical Calculations

The 6100 Calorimeter includes a provision for
calculating and using a mean energy equivalent for
each of up to 4 separate bomb and bucket combina-
tions. ASTM procedures recommend that the energy
equivalent be determined by averaging ten tests.
The 6100 Calorimeter automatically determines and
uses up to ten tests in its memory and will update
the EE Value as additional standardizations are run.
Only Final Tests will be used in determining and
updating EE values. These values, the number of
tests, and the relative standard deviation for the
tests used in determining the EE value are stored
in the Calibration Data Page under the EE Value for
each bomb.

The user can chose to turn off the automatic aver-
aging and updating procedure and protect the EE
Values by turning ON the protection feature for
the appropriate bomb on the Calibration Data and
Control Page using Protected EE Value.