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IKA C 1 Package 1/10 User Manual

Page 16

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16

To correctly determine the gross calorifi c value, it is of fundamen-
tal importance that the sample undergoes complete combustion.
After each ex-periment, the crucible and all solid residues must be
examined for any signs that combustion was not complete.

In case of using substances tending to squirt it is not possible to
ensure complete combustion.
Substances with low flammability (substances with a high

content of mineral matterand low-calorifi c substances) will often

Complete combustion

undergo complete combustion only with the aid of com-bustion
capsules or combustion bags (C 10/ C 12 see „Accessories“). It is
also possible to use liquid combustion aids such as paraffin oil.

The combustion aids as well (for example the cot-ton thread)
must undergo complete combustion. If unburned residues are left
over, the experiment must be repeated.

To ensure precise, reproducible results of the mea-surement, the
calorimeter system is calibrated af-ter it is initially placed in service,
after service jobs, after parts are replaced and at specifi c time inter-
vals. During calibration, the heat capacity of the calorimeter system
is redetermined.

Regular calibration is absolutely essential to obtain accurate

measurements!
For this purpose, a specific quantity of a reference substance
undergoes combustion in the IKA

®

C1 under the conditions of

the experiment. Since the gross calorifi c value of the reference
substance is known, it is possible after combustion has occurred

Calibration

to calculate the heat capacity based on the increase in temperature
of the calorimeter system. The reference substance for calorimetry
on an international level is benzoic acid of the National Bureau of
Standards (NBS Standard Sample 39 J) with a guaranteed gross
calorific value.

For more detailed information on calibration please see the relevant
standards.
If the IKA

®

C1 is operated with several different decomposition ves-

sels, you will need to determine the heat capacity of the system for
each decomposition vessel. The parts of each decomposition vessel
must then not be swapped with parts from other vessels.

Ensure that calibration is carried out under the same conditions as
the subsequent tests. If substances are used in the decomposition
vessel in combustion tests (e.g. distilled water or solutions), you
must use exactly the same amount of this substance for calibra-
tion.

Notes on calibration

For determination of calorifi c values the increase in temperature
must be about as great as for the calibration (± 30%). 1g benzoic
acid =˜ 6K. The optimum sample quantity must de determined by
several trials where necessary.

• Under the conditions that prevail during calorimetric mea-
surements, sulfur and nitrogen un-dergo combustion and form
SO2, SO3 and NOX. Sulfuric and nitric acid arise in combinati-
on with the water resulting form combustion. Heat of solution
is also generated. This heat of solution is taken into conside-
ration in calculating the gross calorific value. In order to quanti-
tatively record and determine all acids that have been formed,
about 5 ml of distilled water or another suitable substance can
be added to the decomposition vessel before the experiment.

The calibration of the system must have been performed in

accordance with the instructions!
Remove after measuring the complete inner vessel. Turn the
inner container upside down, loosen gently the internal container
bottom. Rinse thoroughly with distilled water, the inner area of the
inner container from. The rinsing water and the solution formed
from the water that was added are combined and the acid content
of the combined solution is examined. If the sulfur content of the

combustion aid and the nitric acid cor-rection are known, the
water does not need to be analyzed.

These correction values can not be entered in C1. For this, use the
IKA calorimeter software CalWin.

To increase the service life of parts to wear and tear (O rings,

seals etc.) we recommend to work with water added to the

experiment as a matter of general principle.

Halogen rich substances can cause corrosion on the inner con-

tainer.

These substances must not be burned in C1 with the

standard inner vessel.

In halogen-rich substances of special halogen-resistant

inner vessel C1.12 must be used.

C1 092014

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