1 Steel Limited, Salem Works, India COMA 04th April 2013 1
PROMOTING EARLY DEVOLATILISATION OF COKING COALS TO IMPROVE CRI & CSR PROPERTIES OF COKE WHILST USING
UPTO 22% OF NON-COKING COALS IN THE COAL BLEND
Authored byDr. K.B. Nagashanmugam, Dy Manager, R&D Center Shri. M.S. Pillai, Associate Vice-President (Iron complex)Shri. J.M. Sathaye, Executive Director (Works)
Presented by
J.M. Sathaye
2 Steel Limited, Salem Works, India COMA 04th April 2013 222
P R Jindal Sajjan Jindal Ratan Jindal Naveen Jindal
Jindal StainlessJindal Steel & Power Ltd.Jindal Saw
SteelSteelSteelSteelPowerPowerPowerPower OthersOthersOthersOthersInfrastructureInfrastructureInfrastructureInfrastructure
JSW Steel Limited South West Port
Limited
JSW Energy Limited
O.P. JINDAL GROUP – REVENUE - $ 16 BN
Cement / Aluminium /IT
3 Steel Limited, Salem Works, India COMA 04th April 2013 333
JSW STEEL LTD, SALEM WORKS CAPABILITIES
• JSW Steel – Salem unit is a special alloy steel
division of JSW steel.
• It is the largest special steel plant in India with
a production capacity of 1 MTPA.
• All the steel grades are manufactured by BF-
EOF-LF-VD route.
• JSW Strength – Innovation.
• JSW vision – to become world class special steel
manufacturer.
4 Steel Limited, Salem Works, India COMA 04th April 2013 444
JSW STEEL LTD, SALEMMANUFACTURING FACILITIES
Coke Oven plant - 0.5 MTPA capacity Sinter Plant 1 - 20 Sq.Mtr Sinter Plant 2 - 90 Sq.Mtr Blast Furnace 1 with PCI - 402 Cu.M
Blast Furnace 2 with PCI - 550 Cu.M Energy Optimizing Furnace 1 - 45 MT Energy Optimizing Furnace 2 - 65 MT Ladle Furnace - 4 Nos - 45 / 65 MT Vacuum Degassing Unit - 2 Nos - 45 / 65 MT Billet / bloom caster - 2 Nos. Bar & Wire Rod Mill - 1 No.
Blooming/HV Mill - 1 No. Air Separation Plants - 150 T & 390 T per day Captive Power Generation - (2 x 30 + 7) MW
5 Steel Limited, Salem Works, India COMA 04th April 2013 555
JSW STEEL LTD, SALEM WORKS COKE OVEN PLANT
STAMP CHARGED, ENERGY RECOVERY COKE OVENS
• CAPACITY - 0.5 MTPA
• NO. OF OVENS-120
• COAL CHARGE CAKE-50 T
• BD – 1.10 - 1.15 T/M3
• POWER GENERATION
THROUGH WHRB – 30MW
• COMMISSIONED DURING
2007-2008.
6 Steel Limited, Salem Works, India COMA 04th April 2013 666
HOW TO IMPROVE COKE CSR
• Known methods are:
i. Improving the usage of high quality coking coal in the blend.
ii. Increasing the Bulk Density of coal blend.
iii. Increasing the rate of carbonization by increasing the coking temperature.
.
.
.
iv. Lower porosity
7 Steel Limited, Salem Works, India COMA 04th April 2013 777
POROSITY OF COKE
• Porosity depends on coal properties like rank, type, size, fluidity, carbonisation process etc.
• During carbonisation, Porosity in coke is created by gas bubbles trapped in the semi-coke and arises from the path left by gases.
• Hence, if most of the volatile gases are made to leave when the coal is highly fluid, then the resultant coke would be less porous.
• It is known that, a less porous coke exhibits a better hot strength properties than a highly porous one.
8 Steel Limited, Salem Works, India COMA 04th April 2013 888
COAL DEVOLATILISATION STUDY
• Coal devolatilisation is a complex process in which coal is transformed at elevated temperatures to produce gases, tar and char.
• No standard apparatus for studying the quantum and rates of devolatilisation of coals was available.
• RDI & RI apparatus meant for sinter and iron ore analysis was modified and used for the above.
9 Steel Limited, Salem Works, India COMA 04th April 2013 999
APPARATUS FOR THE DETERMINATION OF DEVOLATILISATION OF COALS
10 Steel Limited, Salem Works, India COMA 04th April 2013 1010
PROCEDURE FOR STUDY OF DEVOLATILISATION
• A sample of 500 grams of coal is taken in the retort and heated gradually under inert atmosphere of nitrogen (to avoid oxidation) from room temperature to 950oC.
• The coal is soaked for two hours at each of the following temperature intervals viz. 300, 350, 400, 450, 500, 550, 600, 700, 800, 900 and 950oC to mimic process in non-recovery ovens.
• The weighing device continuously records the loss in weight of coal.
• The loss in weight corresponds to the amount of volatiles removed.
11 Steel Limited, Salem Works, India COMA 04th April 2013 111111
ADVANTAGE OF EARLY DEVOLATILISATION
• As per the results, for most coals, though the significant devolatilisation starts at 450oC, it is maximum only at the temperature range of 550-700oC.
• For most coking coals, the fluidity temperature range lies between 375-550oC.
• Hence, by some means, if these coals are made to devolatilise early at temperature range at which the coal is fluid, then most gases would escape when the coal is fluid, which in turn should result in coke with improved porosity.
12 Steel Limited, Salem Works, India COMA 04th April 2013 12
REPRESENTATION OF EARLY DEVOLATILISATION TO IMPROVE
COKE QUALITY
13 Steel Limited, Salem Works, India COMA 04th April 2013 131313
EARLY DEVOLATILISATION OF COALS WITH CATALYSTS
• Devolatilisation studies were conducted initially using combustion catalysts (used elsewhere) with available coals.
• Certain chemical compounds (in PPM levels) were found to promote early devolatilisation of coking coals in the fluidity range.
• The above findings revealed that, there exists potential to improve coke properties by using these catalysts.
14 Steel Limited, Salem Works, India COMA 04th April 2013 141414
DEVOLATILISATION BEHAVIOUR OF CHIPANGA MOZAMBIQUE
(HARD COKING COAL)
Temperature (oC)
Without Catalyst With Catalyst Loss in weight
(%)
Cum. Loss in weight
(%)
Loss in weight
(%)
Cum. Loss in weight
(%)250 0 0 0 0300 0 0 0 0350 0 0 0 0400 0 0 4 4450 2 2 8 12500 2 4 6 18550 4 8 2 20600 6 14 2 22700 4 20 2 24800 2 20 0 24900 2 22 0 24950 0 22 0 24
15 Steel Limited, Salem Works, India COMA 04th April 2013 151515
DEVOLATILISATION CURVE OF CHIPANGA MOZAMBIQUE
0
5
10
15
20
25
30
200 400 600 800 1000
Temperature (deg C)
with catalyst
without catalyst
16 Steel Limited, Salem Works, India COMA 04th April 2013 161616
QUANTUM OF DEVOLATILISATION CURVE OF CHIPANGA MOZAMBIQUE
0
1
2
3
4
5
6
7
8
9
200 400 600 800 1000
Temperature (deg C)
with catalyst
without catalyst
17 Steel Limited, Salem Works, India COMA 04th April 2013 171717
DEVOLATILISATION BEHAVIOUR OF GREGORY (SEMI-HARD COKING COAL)
Temperature (oC)
Without Catalyst With Catalyst Loss in weight
(%)
Cum. Loss in weight
(%)
Loss in weight
(%)
Cum. Loss in weight
(%)250 0 0 0 0300 0 0 2 2350 0 0 2 4400 4 4 8 12450 6 10 4 16500 8 18 2 18550 2 20 2 20600 4 24 4 24700 2 28 2 28800 2 28 3 30900 2 30 3 32950 0 30 0 32
18 Steel Limited, Salem Works, India COMA 04th April 2013 181818
DEVOLATILISATION CURVE OF GREGORY COAL
0
5
10
15
20
25
30
35
200 400 600 800 1000
Temperature (deg C)
with catalyst
without catalyst
19 Steel Limited, Salem Works, India COMA 04th April 2013 191919
QUANTUM OF DEVOLATILISATION CURVE OF GREGORY COAL
0
1
2
3
4
5
6
7
8
9
200 400 600 800 1000
Temperature (deg C)
with catalyst
without catalyst
20 Steel Limited, Salem Works, India COMA 04th April 2013 202020
DEVOLATILISATION BEHAVIOUR OF ANTHRACITE (NON-COKING COAL)
Temperature (oC)
Without Catalyst With Catalyst Loss in weight
(%)
Cum. Loss in weight
(%)
Loss in weight
(%)
Cum. Loss in weight
(%)250 0 0 0 0300 0 0 0 0350 0 0 0 0400 0 0 2 2450 0 0 2 4500 0 0 2 6550 2 2 2 6600 6 8 2 8700 2 10 2 10800 2 12 2 12900 0 12 0 14950 0 12 0 14
21 Steel Limited, Salem Works, India COMA 04th April 2013 212121
DEVOLATILISATION CURVE OF ANTHRACITE
0
2
4
6
8
10
12
14
16
200 400 600 800 1000
Temperature (deg C)
with catalyst
without catalyst
22 Steel Limited, Salem Works, India COMA 04th April 2013 222222
QUANTUM OF DEVOLATILISATION CURVE OF ANTHRACITE
0
1
2
3
4
5
6
7
200 400 600 800 1000
Temperature (deg C)
with catalyst
without catalyst
23 Steel Limited, Salem Works, India COMA 04th April 2013 232323
CATALYTIC DEVOLATILISATION AND EXPECTED IMPROVEMENT IN COKE
PROPERTIES
• The addition of catalyst to coal blend in coke ovens should lead to
– the production of coke superior to the one it would have produced in its absence.
– to confirm this phenomenon, “Salem box tests” were conducted by using these coals.
24 Steel Limited, Salem Works, India COMA 04th April 2013 242424
SALEM BOX TEST
• Procedure: The coal samples are collected and crushed to below 3 mm size and are mixed in the required proportion to prepare the coal blend and required quantity of demineralised water is added to it to maintain approximately 10% moisture and is then homogenized by manual mixing.
• This coal blend is filled inside a mild steel or stainless steel box (size 240mm x 240mm x 240mm and thickness 10mm) in 3 to 4 increments and stamped with a metal stamper till 16 kg of coal blend is compacted.
• Now the box is ready for carbonization. It is then placed inside a coke oven by removing a portion of coal cake at the center of its width to accommodate the box.
• The box is then placed in that place for carbonization along with coal cake. After carbonization, the box is removed and the contents were analysed for coke properties (Patent application filed in India).
25 Steel Limited, Salem Works, India COMA 04th April 2013 252525
RESULTS OF SALEM BOX TEST
Coal Blend Without Catalyst With Catalyst
CRI (%) CSR (%) CRI (%) CSR (%)
BT 1- consisting of 15% Anthracite
26.5 63.94 24.5 66.88
BT 2- consisting of 15% Anthracite
27.5 63.66 24.0 67.00
BT 3- consisting of 15% Anthracite
28.0 63.19 26.0 66.43
BT 4- consisting of 15% Anthracite
32.0 57.35 28.0 61.80
BT 5- consisting of 15% Anthracite
34.0 57.57 31.0 61.23
26 Steel Limited, Salem Works, India COMA 04th April 2013
BULK CARBONISATION IN COKE OVENS
• In order to confirm these results in bulk production of coke, addition of catalysts to coal blends was performed in actual coke ovens.
• Initially, the trials were conducted in selected ovens and the catalysts were added to coal blends in stamping station as illustrated in the schematic diagram.
262626
27 Steel Limited, Salem Works, India COMA 04th April 2013 272727
BULK TEST RESULTS
Coal Blend
Without CatalystWith
Catalyst Non-coking coal in
blend (%)CRI (%) CSR (%) CRI (%)CSR (%)
COP - Blend A 27.00 62.80 25.00 64.66 10%COP - Blend B 26.00 63.80 24.00 65.89 12%COP - Blend C 24.00 65.46 22.00 67.62 18%COP - Blend D 22.00 67.60 18.00 71.00 22%COP - Blend E 26.00 64.00 23.00 66.23 15%COP - Blend F 25.00 64.66 23.00 66.23 20%COP - Blend G 25.50 64.09 24.00 65.50 22%
28 Steel Limited, Salem Works, India COMA 04th April 2013 282828
MICUM AND POROSITY IN COKE
Coal Blend Without Catalyst With Catalyst
M 40 (%)
M 10 (%)
Porosity (%)
M 40 (%)
M 10 (%)
Porosity (%)
COP - Blend A 86.1 6.6 50.3 87 6.0 46.0
COP - Blend B 86.6 6.1 47.2 87.6 5.5 41.6
COP - Blend C 87.3 5.7 43.4 88.4 5.1 38.6
COP - Blend D 88.3 5.6 36.9 89.2 4.9 32.8
29 Steel Limited, Salem Works, India COMA 04th April 2013 292929
RESULTS OF BULK MANUFACTURING WITH CATALYSTS
• It is possible to mix selective catalysts with coal blends containing increased percentage of inferior non-coking coals (upto 22%) in coke making and still produce coke with required CRI and CSR values.
• The process reduces the carbonization time by about 2 hrs as compared to conventional coke making process without the use of catalysts
• The application of catalyst helps in reducing the porosity of coke, resulting in the reduction in moisture adsorption.
• Thus, economic benefit was derived from these trials and the technology is now in practical application at JSW Steel Limited, Salem Works.
30 Steel Limited, Salem Works, India COMA 04th April 2013 303030
CONCLUSION• Early devolatilisation in presence of catalyst is observed in
almost all the coals analysed.
• The process of devolatilisation can be speeded up and made to happen at the temperature range when coal is fluid.
• Peak height and peak shift in quantum of devolatilisation curves clearly indicate the catalytic action of chemical compounds in increasing the rate of devolatilisation at lower temperatures.
• Coke produced with the addition of catalysts was found to be comparatively less porous than the one produced in their absence. Water adsorption capacity test also supported this observation.
• Thus the addition of catalysts makes possible the utilisation of upto 22% of non-coking coals in coal blend for the successful mass production of metallurgical coke leading to a reduction in cost per ton of coke.
• Now, the values are consistent at CRI < 25% and CSR > 65% when compared with earlier values of CRI 24-28% and CSR 58-68%.
31 Steel Limited, Salem Works, India COMA 04th April 2013 313131
SCOPE FOR FUTURE WORK
• It is still not clear, how these chemical compounds exert their catalytic action inside the softened coal cake during carbonization.
• Further studies are being conducted to propose a suitable mechanism for their catalytic action.
32 Steel Limited, Salem Works, India COMA 04th April 2013 323232
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