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ISO 501:1981

(Main)

Coal — Determination of the crucible swelling number

Coal — Determination of the crucible swelling number

The sample is heated in a covered crucible under standard conditions to a final temperature of 820 +- 5 °C. The coke button obtained is classified by comparison with the outlines of a set of standard profiles. The number of the profile most closely corresponding to the coke button obtained is the crucible swelling number. Gas or electrical heating may be used. When using an electrically heated apparatus, the results obtained should be the same (within 1/2 unit) as those obtained by the gas heating method.

Charbon — Détermination de l'indice de gonflement au creuset

La présente Norme internationale spécifie une méthode d'évaluation des propriétés de gonflement du charbon chauffé dans un creuset fermé.

Premog - Določanje numerične vrednosti nabrekanja v lončku

General Information

Status
Withdrawn
Publication Date
31-Oct-1981
Withdrawal Date
31-Oct-1981
ICS
73.040 - Coals
Technical Committee
ISO/TC 27 - Coal and coke
Drafting Committee
ISO/TC 27 - Coal and coke
Current Stage
9599 - Withdrawal of International Standard
Completion Date
04-Nov-2003
Ref Project
SIST ISO 501:1998 - Coal -- Determination of the crucible swelling number

Relations

Revised
ISO 501:2003 - Hard coal — Determination of the crucible swelling number
Effective Date
15-Apr-2008

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International Standard
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION.MEWYHAPOCJHAR OPTAHM3ALU4R I-IO CTAH~APTM3Al#WWORGANISATION INTERNATIONALE DE NORMALISATION
Coal - Determination of the crucible swelling number
Charbon - Determination de l ’indice de gonflement au creuset
Second edition - 1981-11-01
UDC 662.66 : 536.416 Ref. No. ISO501-1981 (E)
Descriptors : coal, tests, physical tests, swelling, swelling index, coking.
Price based on 5 pages

---------------------- Page: 1 ----------------------
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of
national Standards institutes (ISO member bedies). The work of developing Inter-
national Standards is carried out through ISO technical committees. Every member
body interested in a subject for which a technical committee has been set up has the
right to be represented on that committee. International organizations, governmental
and non-governmental, in liaison with ISO, also take part in the work.
Draft International Standards adopted by the technical committees are circulated to
the member bodies for approval before their acceptance as International Standards by
the ISO Council.
International Standard ISO 501 was developed by Technical Committee ISO/TC 27,
Solid mhefal fuels.
This second edition was submitted directly to the ISO Council, in accordance with
clause 5.10.1 of the Directives for the technical work of ISO. lt cancels and replaces
the first edition (i.e. ISO 501-19741, which had been approved by the member bodies of
the following countries :
Australia Italy Spain
Austria Sweden
Japan
Belgium Netherlands Switzerland
Turkey
Brazil New Zealand
Chile Philippines United Kingdom
Czechoslovakia Poland USA
Denmark Portugal USSR
Germany, F. R. Romania Y ugoslavia
India South Africa, Rep. sf
The member body of the following country had expressed disapproval of the docu-
ment on technical grounds :
France
0 international Organkation for Standardkation, 1981
Printed in Switzerland

---------------------- Page: 2 ----------------------
INTERNATIONALSTANDARD
ISO 501-1981 (E)
Coal - Determination of the crucible swelling number
crucible before carrying out the test.) Crucibles and lids of
1 Scope and field of application
other ceramic materials may be used, provided that the results
agree with those obtained with silica crucibles. The crucible
This international Standard specifies a method of determining
shall conform to the following specifications :
the swelling properties of a coal when heated in a covered
crucible.
External height : 26 + 0,5 mm
2 Principle
External diameter at top : 41 k 0,75 mm
The Sample is heated in a covered crucible under Standard con-
ditions to a final temperature of 820 + 5 OC. The coke button
Minimum internal diameter at base : 11 mm
obtained is classified by comparison with the outlines of a set of
Standard profiles. The number of the Profile most closely cor-
responding to the coke button obtained is the crucible swelling Mass : 11 to 12,75 g
number.
Capacity : 16 to 17,5 ml
Gas or electrical heating may be used. When using an elec-
trically heated apparatus, the results obtained should be the
same (within 1/2 unit) as those obtained by the gas heating
method.
Dimensions in millimetres
3 Preparation of Sample
Flat top required
/
The coal used for the determination of swelling number is the
analysis Sample ground to pass a 200 Pm sieve. Avoid both
very fine grinding and undue exposure of the ground coal to the
atmosphere since they are liable to lead to erroneous results.
Prepare the coal on the same day that the test is carried out.
With coals especially liable to Oxidation, carry out the test as
soon as possible and not more than 2 h after grinding, unless
the Sample tan be stored in an inert atmosphere.
Before commencing the determination, mix the air-dried
Sample of coal thoroughly for at least 1 min, preferably by
mechanical means. -
00
ßS9
,
\ :
\
In
I
4 Gas heating method
Q 6
\
/
\ x
\
v /
I
{
‘\
\
Crucible /’
J
\ 0
4.1 Apparatus
L-w- e-J
~
4.1.1 Crucible and lid (see figure 1) : Translucent silica
@ int. of base > 11
crucible, squat form, and silica lid with ring handle. (If the lower
surface of the crucible lid is not flat, difficulty may be ex-
perienced in assessing the swelling number of the coal. A small
Figure 1 - Crucible with lid for swelling test
mica plate shall then be inserted between the lid and the

---------------------- Page: 3 ----------------------
ISQ 501-1981 (E)
If a Teclu type burner is used, it will generally be found that a
4.1.2 Pierced silica lid (sec figure 2), similar to that descri-
flame approximately 300 mm long, with the crucible positioned
bed in 4.1 .l but with a 6 mm hole to accommodate the ther-
just above the tip of the blue cone, will give the Standard
mocouple (4.1.7).
temperature conditions.
Hole +!I 6 mm
If a Meker type burner is used, place the crucible approximately
10 mm above the burner grid and adjust the flame so that the
Standard temperature conditions are attained.
Measure the temperature by means of the thermocouple (4.1.7)
inserted through the pierced lid (4.1.21, and having its
unprotected junction and a Portion of each wire in co.ntact with
the centre of the base of the empty crucible.
Check the apparatus at frequent intervals to ensure that the
Figure 2 - Pierced crucible lid
Standard conditions apply.
4.1.3 Triangle, consisting of silica tubing of 6 to 6,5 mm ex-
ternal diameter mounted on nickel/chromium wire, the length Ilimetres
Dirnen
of side being approximately 65 mm.
Crucible as spe cif ied (sec figure 1)
Unprotected nickel/chromium wire may be used, provided that
it is sufficiently rigid.
required sta ndard heating
4.1.4 Burner, capable of givin g the
have been found satisfactory :
conditions. The followin
g tYPes
a) A Teclu type burner; with coal gas of calorific value of
about 20 MJ/m3, the internal diameter of the burner tube
should be approximately 12,5 mm.
Asbestos-cement piping
b) A Meker type burner; with natura1 gas of calorific value
(Wall thickness 5)
of about 40 MJ/m3, the external diameter of the burner grid
Teclu
should be approximately 30 mm.
4.1.5
Gauge, for measuring gas pressure.
Figure 3 - Apparatus for the gas heating method
4.1.6 Draught shield, made from asbestos-cement piping
approximately 150 mm in length, 100 mm internal diameter and
4.3 Procedure
110 mm external diameter. At one end the piping shall have
three Slots 25 mm deep in which the wire portions of the silica
triangle rest (4.1.3) (see figure 3).
Weig h l,oo to 1,Ol g of the freshly round Sample tsee
Cl
clause 3) into a dry crucible (4.1. 1) and lig htly tap the cru cible
shall be taken not to inhale
WARNING - Care anY about 12 times on the bench to Ievel the surface of the coal.
asbestos dust. Cover the crucible with the unpierced lid and place it upright on
the silica t ,riangle (4.1.3) supported in the draught s Ihield (4.1.6).
Light the gas and heat at the predetermined rate for such time
4.1.7 Thermocouple, of fine wire of diameter not greater
as is required for the flame of the burning volatile matter to die
...

SLOVENSKI STANDARD
SIST ISO 501:1998
01-februar-1998
3UHPRJ'RORþDQMHQXPHULþQHYUHGQRVWLQDEUHNDQMDYORQþNX
Coal -- Determination of the crucible swelling number
Charbon -- Détermination de l'indice de gonflement au creuset
Ta slovenski standard je istoveten z: ISO 501:1981
ICS:
73.040 Premogi Coals
SIST ISO 501:1998 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

---------------------- Page: 1 ----------------------

SIST ISO 501:1998

---------------------- Page: 2 ----------------------

SIST ISO 501:1998
International Standard
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION.MEWYHAPOCJHAR OPTAHM3ALU4R I-IO CTAH~APTM3Al#WWORGANISATION INTERNATIONALE DE NORMALISATION
Coal - Determination of the crucible swelling number
Charbon - Determination de l ’indice de gonflement au creuset
Second edition - 1981-11-01
UDC 662.66 : 536.416 Ref. No. ISO501-1981 (E)
Descriptors : coal, tests, physical tests, swelling, swelling index, coking.
Price based on 5 pages

---------------------- Page: 3 ----------------------

SIST ISO 501:1998
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of
national Standards institutes (ISO member bedies). The work of developing Inter-
national Standards is carried out through ISO technical committees. Every member
body interested in a subject for which a technical committee has been set up has the
right to be represented on that committee. International organizations, governmental
and non-governmental, in liaison with ISO, also take part in the work.
Draft International Standards adopted by the technical committees are circulated to
the member bodies for approval before their acceptance as International Standards by
the ISO Council.
International Standard ISO 501 was developed by Technical Committee ISO/TC 27,
Solid mhefal fuels.
This second edition was submitted directly to the ISO Council, in accordance with
clause 5.10.1 of the Directives for the technical work of ISO. lt cancels and replaces
the first edition (i.e. ISO 501-19741, which had been approved by the member bodies of
the following countries :
Australia Italy Spain
Austria Sweden
Japan
Belgium Netherlands Switzerland
Turkey
Brazil New Zealand
Chile Philippines United Kingdom
Czechoslovakia Poland USA
Denmark Portugal USSR
Germany, F. R. Romania Y ugoslavia
India South Africa, Rep. sf
The member body of the following country had expressed disapproval of the docu-
ment on technical grounds :
France
0 international Organkation for Standardkation, 1981
Printed in Switzerland

---------------------- Page: 4 ----------------------

SIST ISO 501:1998
INTERNATIONALSTANDARD
ISO 501-1981 (E)
Coal - Determination of the crucible swelling number
crucible before carrying out the test.) Crucibles and lids of
1 Scope and field of application
other ceramic materials may be used, provided that the results
agree with those obtained with silica crucibles. The crucible
This international Standard specifies a method of determining
shall conform to the following specifications :
the swelling properties of a coal when heated in a covered
crucible.
External height : 26 + 0,5 mm
2 Principle
External diameter at top : 41 k 0,75 mm
The Sample is heated in a covered crucible under Standard con-
ditions to a final temperature of 820 + 5 OC. The coke button
Minimum internal diameter at base : 11 mm
obtained is classified by comparison with the outlines of a set of
Standard profiles. The number of the Profile most closely cor-
responding to the coke button obtained is the crucible swelling Mass : 11 to 12,75 g
number.
Capacity : 16 to 17,5 ml
Gas or electrical heating may be used. When using an elec-
trically heated apparatus, the results obtained should be the
same (within 1/2 unit) as those obtained by the gas heating
method.
Dimensions in millimetres
3 Preparation of Sample
Flat top required
/
The coal used for the determination of swelling number is the
analysis Sample ground to pass a 200 Pm sieve. Avoid both
very fine grinding and undue exposure of the ground coal to the
atmosphere since they are liable to lead to erroneous results.
Prepare the coal on the same day that the test is carried out.
With coals especially liable to Oxidation, carry out the test as
soon as possible and not more than 2 h after grinding, unless
the Sample tan be stored in an inert atmosphere.
Before commencing the determination, mix the air-dried
Sample of coal thoroughly for at least 1 min, preferably by
mechanical means. -
00
ßS9
,
\ :
\
In
I
4 Gas heating method
Q 6
\
/
\ x
\
v /
I
{
‘\
\
Crucible /’
J
\ 0
4.1 Apparatus
L-w- e-J
~
4.1.1 Crucible and lid (see figure 1) : Translucent silica
@ int. of base > 11
crucible, squat form, and silica lid with ring handle. (If the lower
surface of the crucible lid is not flat, difficulty may be ex-
perienced in assessing the swelling number of the coal. A small
Figure 1 - Crucible with lid for swelling test
mica plate shall then be inserted between the lid and the

---------------------- Page: 5 ----------------------

SIST ISO 501:1998
ISQ 501-1981 (E)
If a Teclu type burner is used, it will generally be found that a
4.1.2 Pierced silica lid (sec figure 2), similar to that descri-
flame approximately 300 mm long, with the crucible positioned
bed in 4.1 .l but with a 6 mm hole to accommodate the ther-
just above the tip of the blue cone, will give the Standard
mocouple (4.1.7).
temperature conditions.
Hole +!I 6 mm
If a Meker type burner is used, place the crucible approximately
10 mm above the burner grid and adjust the flame so that the
Standard temperature conditions are attained.
Measure the temperature by means of the thermocouple (4.1.7)
inserted through the pierced lid (4.1.21, and having its
unprotected junction and a Portion of each wire in co.ntact with
the centre of the base of the empty crucible.
Check the apparatus at frequent intervals to ensure that the
Figure 2 - Pierced crucible lid
Standard conditions apply.
4.1.3 Triangle, consisting of silica tubing of 6 to 6,5 mm ex-
ternal diameter mounted on nickel/chromium wire, the length Ilimetres
Dirnen
of side being approximately 65 mm.
Crucible as spe cif ied (sec figure 1)
Unprotected nickel/chromium wire may be used, provided that
it is sufficiently rigid.
required sta ndard heating
4.1.4 Burner, capable of givin g the
have been found satisfactory :
conditions. The followin
g tYPes
a) A Teclu type burner; with coal gas of calorific value of
about 20 MJ/m3, the internal diameter of the burner tube
should be approximately 12,5 mm.
Asbestos-cement piping
b) A Meker type burner; with natura1 gas of calorific value
(Wall thickness 5)
of about 40 MJ/m3, the external diameter of the burner grid
Teclu
should be approximately 30 mm.
4.1.5
Gauge, for measuring gas pressure.
Figure 3 - Apparatus for the gas heating method
4.1.6 Draught shield, made from asbestos-cement piping
approximately 150 mm in length, 100 mm internal diameter and
4.3 Procedure
110 mm external diameter. At one end the piping shall have
three Slots 25 mm deep in which the wire portions of the silica
triangle rest (4.1.3) (see figure 3).
Weig h l,oo to 1,Ol g of the freshly round Sample tsee
Cl
clause 3) into a dry crucible (4.1. 1) and lig htly tap the cru cible
shall be taken not to inhale
WARNING - Care anY about 12 times on the bench to Ievel the surface of the coal.
asbes
...

Norme internationale
INTERNATIONAL ORGANIZATION FOR STANDARDIZATlONoME~YHAPO~HAR OPrAHM3AL&lR IlO CTAH~APTM3AL&lbl.ORGANISATlON INTERNATIONALE DE NORMALISATION
Charbon - Dbtermination de I’indice de gonflement au
creuset
Coal
- Determination of the crucible swelling number
Deuxihme 6dition - 1981-11-01
CDU 662.66 : 536.416
Ref. no : IS0 501-1981 (FI
Descripteurs :
charbon, essai, essai physique, gonflement, indice de gonflement, cokefaction.
Prix base sur 5 pages

---------------------- Page: 1 ----------------------
Avant-propos
L’ISO (Organisation internationale de normalisation) est une federation mondiale
d’organismes nationaux de normalisation (comites membres de I’ISO). L/elaboration
des Normes internationales est confide aux comites techniques de I’ISO. Chaque
comite membre interesse par une etude a le droit de faire partie du comite technique
correspondant. Les organisations internationales, gouvernementales et non gouverne-
mentales, en liaison avec I’ISO, participent egalement aux travaux.
Les projets de Normes internationales adopt& par les comites techniques sont soumis
aux comites membres pour approbation, avant leur acceptation comme Normes inter-
nationales par le Conseil de I’ISO.
La Norme internationale IS0 501 a ete elaboree par le comite technique lSO/TC 27,
Combustibles min&aux solides.
Cette deuxieme edition fut soumise directement au Conseil de I’ISO, conformement au
paragraphe 5.10.1 de la partie 1 des Directives pour les travaux techniques de I’ISO.
Elle annule et remplace la premiere edition (IS0 501-1974), qui avait ete approuvee par
les comites membres des pays suivants :
Afrique du Sud, Rep. d’
lnde Royaume-Uni
Allemagne, R. F. ltalie Suede
Australie
Japon Suisse
Autriche
Nouvelle-Zelande Tchecoslovaquie
Belgique Pays- Bas Turquie
Bresil
Philippines URSS
Chili
Pologne USA
Danemark
Portugal Yougoslavie
Espagne
Roumanie
Le comite membre du pays suivant I’avait desapprouvee pour des raisons techniques :
0 Organisation internationale de normalisation, 1981
Imprim en Suisse

---------------------- Page: 2 ----------------------
-~
NORME INTERNATIONALE IS0 501-1981 (F)
Charbon - Determination de I’indice de gonflement au
creuset
1 Objet et domaine d’application vercle du creuset n’est pas plane, on peut rencontrer des diffi-
cult& dans la determination de I’indice de gonflement du char-
bon. II convient alors d’introduire une petite plaque de mica
La presente Norme internationale specific une methode d’eva-
entre le couvercle et le creuset avant de proceder a I’essai.) On
luation des proprietes de gonflement du charbon chauffe dans
peut utiliser des creusets et couvercles en d’autres matieres
un creuset ferme.
ceramiques, sous reserve que les resultats concordent avec
ceux qui sont obtenus lorsqu’on utilise un creuset en silice. Le
creuset doit etre conforme aux specifications suivantes :
2 Principe
Hauteur exterieure : 26 ,+ 0,5 mm
L’echantillon est chauffe dans un creuset ferme, dans des
conditions normalisees, jusqu’a une temperature finale de
Diametre exterieur au sommet : 41 + 0,75 mm
820 + 5 OC. Le culot de coke obtenu est classe par comparai-
son avec les profils d’une serie type. Le numero du profil qui
Diametre interieur a la base (minimal) : 11 mm
correspond le mieux a celui du culot de coke obtenu est I’indice
de gonflement au creuset.
Masse : 11 a 12,75 g
On peut utiliser le chauffage au gaz ou electrique. Lorsqu’on
Capacite : 16 a 17,5 ml
utilise un appareillage a chauffage electrique, les resultats doi-
vent etre identiques (a l/2 unite pres) a ceux qui sont obtenus
Dimensions en millim&tres
par le chauffage au gaz.
Surface supkieure qui
3 PrQparation de 1’6chantillon
f doit &re plane
Le charbon utilise pour la determination de I’indice de gonfle-
ment est I’echantillon pour analyse, broye pour passer au tamis
+pLf/
de 200 pm d’ouverture de maille. tviter un broyage trop fin
Couvercle
ainsi qu’une exposition inutile a I’air, car cela peut fausser les
resultats. Preparer l’echantillon le jour meme de I’essai. Dans le
cas de charbons particulierement sensibles a I’oxydation, effec-
tuer I’essai des que possible et moins de 2 h apres le broyage, a
moins qu’il soit possible de conserver I’echantillon en
atmosphere inerte.
$ext. 41 to,75
Avant de commencer la determination, homogeneiser I’echan- -
9
00
tillon (tsec a I’air)), durant au moins 1 min, de preference par un
f&/’
,
I
procede mecanique. \
\
: VI
\
4 \ I’ 0‘
\
\ CL
I’
\
I” i
i el
4 M6thode par chauffage au gaz
Creuset /I
c//
\ /
L-m- --d
T
4.1 Appareillage
@intAlabase > 11
4.1 .I Creuset et couvercle (voir figure 1) : creuset en silice
translucide, de forme basse, muni d’un couvercle egalement en Figure 1 - Creuset et couvercle pour I’essai
silice, surmonte d’un anneau. (Si la surface inferieure du cou- de gonflement

---------------------- Page: 3 ----------------------
IS0 5014981 (F)
l’amen& de gaz et d’air au brfileur (4.1.4) de facon que la tem-
4.1.2 Couvercle en silice per& (voir figure 2), semblable ti ,
pkrature de la surface interieure de la base du creuset atteigne
celui decrit en 4.1.1, mais presentant un trou de 6 mm de dia-
m&tre pour le passage du thermocouple (4.1.7). 800 + 10 OC en 1,5 min et 820 + 5 OC en 2,5 min a partir du
moment air le gaz est allume.
,- Trou @ 6 mm
I
Si I’on emploie un brtileur du type Teclu, on constatera g&G-a-
lement qu’une flamme d’environ 300 mm de hauteur, le creuset
&ant place juste au-dessus du sommet du cene bleu de la
flamme, donne les conditions de tempkrature normalisees.
Si I’on emploie un brl7rleur du type Meker, placer le creuset
approximativement a 10 mm au-dessus de la grille du brQleur,
et regler la flamme de facon ti atteindre les conditions de tem-
perature normalisees.
Figure 2 - Couvercle per& du creuset
Mesurer la temperature au moyen du thermocouple (4.1.7)
4.1.3 Triangle, fabriquk avec des tubes de silice de 6 3
introduit i travers le couvercle per& (4.1.2), la soudure nue et
6,5 mm de diamhtre ext&-ieur, months sur un fil de nickel- une portion de chaque fil &tant en contact avec le centre de la
chrome et formant un triangle d’environ 65 mm de c&K
base du creuset vide.
On peut employe r du fil de nickel- chrome non protbgb, s’il est
Verifier I’appareillage ZI de frequents intervalles, afin de s’assu-
assez rigide.
rer que les conditions normalisbes sont respectbes.
4.1.4 BrQleur, pouvant rbaliser les conditions de chauffage
sp&ifiees. Les types de brtileurs suivants ont etl! reconnus
Dimensions en millimetres
satisfaisants :
br2rleur Teclu : le diametre intbrieur du tube de celui-ci
a)
/-- Creuset prescrit (voir figure I)
doit etre approximativement de 12,5 mm, lorsque le brtileur
fonctionne au gaz d’bclairage de 20 MJ/m3 de pouvoir calo-
ritlque;
b) brijleur Meker : le diamhtre ext&-ieur de la grille de
celui-ci doit etre approximativement de 30 mm, Iorsque le
brZlleur fonctionne au gaz nature1 de 40 MJ/m3 de pouvoir
calorifique.
t
4.1.5 Manomhtre, destine ZI mesurer la pression du gaz.
Tuyau en amiante-ciment
‘-(epaisseur de paroi 5)
R
4.1.6 kran protecteur : tuyau en amiante-ciment d’environ Brfileur Teclu
150 mm de hauteur, 100 mm de diamhtre intbrieur et 110 mm
de diam&re exterieur. A I’une des extrkmit& de ce tuyau se
trouvent trois encoches de 25 mm de profondeur, dans lesquel-
les sont encastrhes les parties m&taIIiques du triangle (4.1.3)
(voir figure 3).
Figure 3 - Appareilla pour la mbthode par
ge
chauffa au gaz
ge
- Des prbcautions doivent etre prises
AVERTISSEMENT
pour biter de respirer des poussi&res d’amiante.
4.3 Mode ophatoire
4.1.7 Thermocouple, 8 fils fins, de diametre infkrieur ou egal
a 0,23 mm pour le fil de platine, et 3 0,45 mm pour les fils en
Peser 1,00 a 1,Ol g de 1’8chantillon fraichement broyb (voir
mbtaux communs. Les extrbmit& du couple doivent avoir la
chapitre 3) dans un creuset (4.1 .l) set, et tapoter leg&rement
forme d’une boucle aplatie.
ce dernier environ 12 fois sur la table pour niveler la
...

Norme internationale
INTERNATIONAL ORGANIZATION FOR STANDARDIZATlONoME~YHAPO~HAR OPrAHM3AL&lR IlO CTAH~APTM3AL&lbl.ORGANISATlON INTERNATIONALE DE NORMALISATION
Charbon - Dbtermination de I’indice de gonflement au
creuset
Coal
- Determination of the crucible swelling number
Deuxihme 6dition - 1981-11-01
CDU 662.66 : 536.416
Ref. no : IS0 501-1981 (FI
Descripteurs :
charbon, essai, essai physique, gonflement, indice de gonflement, cokefaction.
Prix base sur 5 pages

---------------------- Page: 1 ----------------------
Avant-propos
L’ISO (Organisation internationale de normalisation) est une federation mondiale
d’organismes nationaux de normalisation (comites membres de I’ISO). L/elaboration
des Normes internationales est confide aux comites techniques de I’ISO. Chaque
comite membre interesse par une etude a le droit de faire partie du comite technique
correspondant. Les organisations internationales, gouvernementales et non gouverne-
mentales, en liaison avec I’ISO, participent egalement aux travaux.
Les projets de Normes internationales adopt& par les comites techniques sont soumis
aux comites membres pour approbation, avant leur acceptation comme Normes inter-
nationales par le Conseil de I’ISO.
La Norme internationale IS0 501 a ete elaboree par le comite technique lSO/TC 27,
Combustibles min&aux solides.
Cette deuxieme edition fut soumise directement au Conseil de I’ISO, conformement au
paragraphe 5.10.1 de la partie 1 des Directives pour les travaux techniques de I’ISO.
Elle annule et remplace la premiere edition (IS0 501-1974), qui avait ete approuvee par
les comites membres des pays suivants :
Afrique du Sud, Rep. d’
lnde Royaume-Uni
Allemagne, R. F. ltalie Suede
Australie
Japon Suisse
Autriche
Nouvelle-Zelande Tchecoslovaquie
Belgique Pays- Bas Turquie
Bresil
Philippines URSS
Chili
Pologne USA
Danemark
Portugal Yougoslavie
Espagne
Roumanie
Le comite membre du pays suivant I’avait desapprouvee pour des raisons techniques :
0 Organisation internationale de normalisation, 1981
Imprim en Suisse

---------------------- Page: 2 ----------------------
-~
NORME INTERNATIONALE IS0 501-1981 (F)
Charbon - Determination de I’indice de gonflement au
creuset
1 Objet et domaine d’application vercle du creuset n’est pas plane, on peut rencontrer des diffi-
cult& dans la determination de I’indice de gonflement du char-
bon. II convient alors d’introduire une petite plaque de mica
La presente Norme internationale specific une methode d’eva-
entre le couvercle et le creuset avant de proceder a I’essai.) On
luation des proprietes de gonflement du charbon chauffe dans
peut utiliser des creusets et couvercles en d’autres matieres
un creuset ferme.
ceramiques, sous reserve que les resultats concordent avec
ceux qui sont obtenus lorsqu’on utilise un creuset en silice. Le
creuset doit etre conforme aux specifications suivantes :
2 Principe
Hauteur exterieure : 26 ,+ 0,5 mm
L’echantillon est chauffe dans un creuset ferme, dans des
conditions normalisees, jusqu’a une temperature finale de
Diametre exterieur au sommet : 41 + 0,75 mm
820 + 5 OC. Le culot de coke obtenu est classe par comparai-
son avec les profils d’une serie type. Le numero du profil qui
Diametre interieur a la base (minimal) : 11 mm
correspond le mieux a celui du culot de coke obtenu est I’indice
de gonflement au creuset.
Masse : 11 a 12,75 g
On peut utiliser le chauffage au gaz ou electrique. Lorsqu’on
Capacite : 16 a 17,5 ml
utilise un appareillage a chauffage electrique, les resultats doi-
vent etre identiques (a l/2 unite pres) a ceux qui sont obtenus
Dimensions en millim&tres
par le chauffage au gaz.
Surface supkieure qui
3 PrQparation de 1’6chantillon
f doit &re plane
Le charbon utilise pour la determination de I’indice de gonfle-
ment est I’echantillon pour analyse, broye pour passer au tamis
+pLf/
de 200 pm d’ouverture de maille. tviter un broyage trop fin
Couvercle
ainsi qu’une exposition inutile a I’air, car cela peut fausser les
resultats. Preparer l’echantillon le jour meme de I’essai. Dans le
cas de charbons particulierement sensibles a I’oxydation, effec-
tuer I’essai des que possible et moins de 2 h apres le broyage, a
moins qu’il soit possible de conserver I’echantillon en
atmosphere inerte.
$ext. 41 to,75
Avant de commencer la determination, homogeneiser I’echan- -
9
00
tillon (tsec a I’air)), durant au moins 1 min, de preference par un
f&/’
,
I
procede mecanique. \
\
: VI
\
4 \ I’ 0‘
\
\ CL
I’
\
I” i
i el
4 M6thode par chauffage au gaz
Creuset /I
c//
\ /
L-m- --d
T
4.1 Appareillage
@intAlabase > 11
4.1 .I Creuset et couvercle (voir figure 1) : creuset en silice
translucide, de forme basse, muni d’un couvercle egalement en Figure 1 - Creuset et couvercle pour I’essai
silice, surmonte d’un anneau. (Si la surface inferieure du cou- de gonflement

---------------------- Page: 3 ----------------------
IS0 5014981 (F)
l’amen& de gaz et d’air au brfileur (4.1.4) de facon que la tem-
4.1.2 Couvercle en silice per& (voir figure 2), semblable ti ,
pkrature de la surface interieure de la base du creuset atteigne
celui decrit en 4.1.1, mais presentant un trou de 6 mm de dia-
m&tre pour le passage du thermocouple (4.1.7). 800 + 10 OC en 1,5 min et 820 + 5 OC en 2,5 min a partir du
moment air le gaz est allume.
,- Trou @ 6 mm
I
Si I’on emploie un brtileur du type Teclu, on constatera g&G-a-
lement qu’une flamme d’environ 300 mm de hauteur, le creuset
&ant place juste au-dessus du sommet du cene bleu de la
flamme, donne les conditions de tempkrature normalisees.
Si I’on emploie un brl7rleur du type Meker, placer le creuset
approximativement a 10 mm au-dessus de la grille du brQleur,
et regler la flamme de facon ti atteindre les conditions de tem-
perature normalisees.
Figure 2 - Couvercle per& du creuset
Mesurer la temperature au moyen du thermocouple (4.1.7)
4.1.3 Triangle, fabriquk avec des tubes de silice de 6 3
introduit i travers le couvercle per& (4.1.2), la soudure nue et
6,5 mm de diamhtre ext&-ieur, months sur un fil de nickel- une portion de chaque fil &tant en contact avec le centre de la
chrome et formant un triangle d’environ 65 mm de c&K
base du creuset vide.
On peut employe r du fil de nickel- chrome non protbgb, s’il est
Verifier I’appareillage ZI de frequents intervalles, afin de s’assu-
assez rigide.
rer que les conditions normalisbes sont respectbes.
4.1.4 BrQleur, pouvant rbaliser les conditions de chauffage
sp&ifiees. Les types de brtileurs suivants ont etl! reconnus
Dimensions en millimetres
satisfaisants :
br2rleur Teclu : le diametre intbrieur du tube de celui-ci
a)
/-- Creuset prescrit (voir figure I)
doit etre approximativement de 12,5 mm, lorsque le brtileur
fonctionne au gaz d’bclairage de 20 MJ/m3 de pouvoir calo-
ritlque;
b) brijleur Meker : le diamhtre ext&-ieur de la grille de
celui-ci doit etre approximativement de 30 mm, Iorsque le
brZlleur fonctionne au gaz nature1 de 40 MJ/m3 de pouvoir
calorifique.
t
4.1.5 Manomhtre, destine ZI mesurer la pression du gaz.
Tuyau en amiante-ciment
‘-(epaisseur de paroi 5)
R
4.1.6 kran protecteur : tuyau en amiante-ciment d’environ Brfileur Teclu
150 mm de hauteur, 100 mm de diamhtre intbrieur et 110 mm
de diam&re exterieur. A I’une des extrkmit& de ce tuyau se
trouvent trois encoches de 25 mm de profondeur, dans lesquel-
les sont encastrhes les parties m&taIIiques du triangle (4.1.3)
(voir figure 3).
Figure 3 - Appareilla pour la mbthode par
ge
chauffa au gaz
ge
- Des prbcautions doivent etre prises
AVERTISSEMENT
pour biter de respirer des poussi&res d’amiante.
4.3 Mode ophatoire
4.1.7 Thermocouple, 8 fils fins, de diametre infkrieur ou egal
a 0,23 mm pour le fil de platine, et 3 0,45 mm pour les fils en
Peser 1,00 a 1,Ol g de 1’8chantillon fraichement broyb (voir
mbtaux communs. Les extrbmit& du couple doivent avoir la
chapitre 3) dans un creuset (4.1 .l) set, et tapoter leg&rement
forme d’une boucle aplatie.
ce dernier environ 12 fois sur la table pour niveler la
...

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