The birth of Indian Rare Earths
Ltd (IREL) is closely linked with the emergence of the Atomic Energy Commission
in India. It was incorporated on 18th August, 1950 as a private limited
Company and its activity started with the commissioning and operation of
a Rare Earth Plant at Alwaye, Kerala, for the processing of monazite mineral
to thorium concentrate, rare earth chloride and trisodium phosphate. Subsequently,
IREL became a full-fledged Central Govt. Undertaking under the administrative
control of Department of Atomic Energy and took over the beach sand mineral
industries of the country in 1965. It started operating two mining and
mineral separation plants one at Chavara, Kerala,. and the other at Manavalakurichi,
Tamil Nadu, to exploit its beach sand containing heavy minerals. The activities
of these two plants essentially involved dry mining of the black sands
from the beaches and its separation to individual minerals like ilmenite,
rutile, zircon, monazite, sillimanite and garnet taking advantage of the
differences in properties like specific gravity, magnetic susceptibility,
electrical conductivity and surface characteristics. Besides chemical processing
of monazite at Alwaye plant, only other value addition activity undertaken
that time was dry grinding of the zircon concentrate to zirflour for its
application as an opacifier in ceramic industry. In the next ten years
or so, Company's sales turnover improved from mere 1 core to about 5 core
making reasonable profit every year. Besides rare earth chloride, the major
mineral-ilmenite, particularly that from Chavara (-60% TiO2) was regularly
exported as it was in great demand as a feed stock for the production of
TiO 2 pigment.
During 1973-74, a decision was taken
to exploit the 250 million tonnes of raw sand deposit with 20-25% heavy
minerals of South Orissa Coast.Although heavy mineral contents in Orissa
sand are lower than those of west coast deposits (40 to 60%), it was thought
to be compensated by its large volume and other favourable factors like
the area being sparsely populated and availability of port, railway and
highway in the vicinity. Accordingly project activity was initiated to
set up an integrated mining, mineral separation and value addition facility
called Orissa Sand Complex (OSCOM) at Chatrapur-an industrially backward
area about 150 km away from Bhubaneswar with following name plate capacity
of mineral production:
| Ilmenite |
220,000 tons |
| Rutile |
10,000 tons |
| Zircon |
2,000 tons |
| Sillimanite |
30,000 tons |
| Monazite |
4,000 tons |
The scope of the project also included
setting up of a chemical plant for the conversion of the entire amount
of ilmenite to 100,000 ton of synthetic rutile-a much sought after value
added feedstock for the production of pigment.
The project was in fact quite ambitious
as it envisaged dredge and wet concentration- a mining technique to be
adopted by IREL for the first time and conversion of entire amount of low
grade(50% TiO2) ilmenite to 92% grade synthetic rutile (SR) based on the
Benelite process technology (ref Fig.1A) involving reduction roasting of
ilmenite followed by it high pressure-high temperature leaching with concentrated
hydrochloric acid and its regeneration from the spent acid. It took almost
ten years to set up the facility at an escalated cost of Rs. 135.34 crores
entirely funded by Govt. of India at a debt-equity ratio of 1:1. It was
expected that with OSCOM reaching name plate capacity, the sales turnover
as well as foreign exchange earning of the company would be doubled. Eventually
OSCOM became operational from 1.10.1986 but the projected returns in term
of sales turn over and profit were never realised.
PROBLEMS OF OSCOM
The complex as mentioned earlier,
essentially comprises of two production lines. The first includes Dredge
and Wet Concentrator(DWC) and Mineral Separation Plant(MSP) for the production
of individual minerals. The second line consists of Synthetic Rutile Plant
(SRP) and Acid Regeneration Plant (ARP) for conversion of ilmenite to SR.
Most of the unit operations of SRP and ARP are based on processes/technologies,
which are attempted in the country for the first time. Also, while procuring
plant and equipment for the project, IRE had utilised indigenous sources
and technologies to the maximum extent possible and import was limited
to items not manufactured indigenously. In view of above, problems encountered
at OSCOM are not only unique in nature but also large in magnitude especially
in view of the fact that the basic technology has been obtained from different
agencies and an attempt has been made to unit them together.Repeated failures
of various equipment like roaster, calciner, digesters, filters, hardware(valves/pipelines)
and structurals due to severe high temperature and corrosive atmosphere
resulted in frequent shutdown of the plant, extremely poor yield of SR,
and mounting variable cost of production. In addition, it should be noted
that OSCOM project was conceived in the wake of increasing world demand
of SR as feed stock for titanium pigment industry. However, when OSCOM
finally became operational and its new plants were struggling to overcome
various problems the international market for feed stock and pigments entered
one of its worst recessions ever. Moreover,the costs of major inputs like
power, fuel oil,acid and coal increased substantially - far above the assumed
figures. As a result, OSCOM during its first 10 years operations could
register ilmenite production in the range of 14 to 47% of name plate capacity.Similarly,
capacity utilisation of SRP was only in the range of 1 to 8% with frequent
closure of the plant. The SR yield under best of the conditions operated
was only 60% resulting in extremely high cost of production and consequent
loss during its sale.
In between there were many efforts
to address various individual problems mentioned as well as total revamping
of entire SRP but without much success. As far as mining and mineral separation
activity is concerned, a collaborator was found in M/s QIT-Ferro-et Titanic
Inc,Canada,who was ready to form a Joint Venture Company(JVC) and provide
all the inputs necessary for increased production and assured markets for
Orissa grade ilmenite for making of titania slag. However, after trials
and test work, QIT opted out of JVC on consideration of Orissa ilmenite
being unsuitable for the slag process, IRE, however, continued its efforts
and could gradually raise its mineral production and quality.
RECENT DEVELOPMENTS
In the last five years or so, there
have been marked improvements in the performance of OSCOM particularly
with respect to its mining and mineral separation activities. The
mineral production figures are presented
below:
It can be seen that production of
all minerals has improved significantly over the years. Special mention
should be made of ilmenite for which more than 80% of the name plate capacity
has already been achieved. Garnet is yet another mineral present in the
Orissa sand in large concentration which could be recovered to almost 18000
ton by introducing additional circuit developed in-house Such improvements
have been possible by (i) replacing the old trommel by a superior one (ii)increasing
the length of the cutter, (iii) replacing the corroded structures (iv)
improving the instrumentation and control system (v) replacing the old
spirals with better designed one and (vi) introducing better mining plan.
in the Mineral Separation Plant, debottlenecking, changes and fine tuning
of the unit operations, optimisation of their performance and location
have all paid rich dividends.IRE is presently selling about 1,45,000 ton
of OSCOM ilmenite in the export market as a feed stock for the production
of slag anatase grade pigment.
As far as SR production was concerned,a
decision was taken in 1997 to stop commercial
|
MINERAL
PRODUCTION AT OSCOM IN THE LAST FIVE YEARS, TONS
|
|
MINERAL
|
1994-95
|
1995-96
|
1996-97
|
1997-98
|
1998-99
|
|
Iimenite
|
73521
|
102714
|
91023
|
118190
|
177341
|
|
Rutile
|
2802
|
3697
|
3099
|
4515
|
5654
|
|
Zircon
|
1176
|
1503
|
1639
|
2383
|
2848
|
|
Sillimanite
|
1221
|
2026
|
2638
|
2951
|
4665
|
|
Garnet
|
938
|
2062
|
2269
|
4259
|
17920
|
|
operation as it was no way profitable
in the way it was being run. Instead efforts were initiated to address
the various defects of the reduction roaster so that oxidation of the reduced
material coming out of the hot zone did not take place and overall reduction
improves much beyond 40%. At the
same time detailed laboratory scale investigation was initiated to modify
the leaching flowsheet with an aim of simplifying the operation and improving
the SR yield beyond 90% so that the variable cost of production comes down
significantly. It was a matter of satisfaction that after suitable modification,
the roaster could achieve a reduction efficiency of more than 70%. More
importantly, according to the new modified leaching process(ref Fig.1B),
it was found possible to achieve SR yield and grade both of the order of
93% by a simple single stage leaching of the reduced material with 20%
HCI in the presence of certain additives.Such results of laboratory scale
experiments were reconfirmed by three series of plant scale trial (more
than 50 batches) wherein the variable cost of production could be brought
down by almost 50%. It is now contemplated to put 6 out of the original
16 digesters in operation for one month continuously. Once the commercial
aspect of the modified process is well established by the proposed month
long trial, investment decision will be taken to restart the commercial
operation of the revamped section of SRP and ARP with at least six digesters
each producing about 9T of SR per day.
JOINT VENTURE ACTIVITIES
In parallel to above mentioned in-house
efforts towards restarting SR production on a limited scale, IRE is very
actively pursuing tow joint venture efforts one with AUSTPAC of Australia
and the other with Saraf Agencies Ltd, Calcutta, and Ishihara Sangyo Kaisha
Ltd (ISK), Japan, for setting up of a demonstration and a commercial scale
respectively. The JVC with AUSTPAC contemplates to set up at OSCOM premises
a 10,000 tpa SR plant based on a patented process involving fluidised bed
oxidation-reduction roasting followed by fluidised bed leaching with 20%
HCI at atmospheric pressure. Such a process is expected to yield high grade
(96% TiO2) SR from any low grade ilmenite with excellent TiO2 recovery
figures. Once this technology is well established through the proposed
Demonstration Plant, it would be applicable for processing other low grade
ilmenites of the country.
The other JVC proposes to set up
a 100,000 tpa SR plant again at OSCOM premises based on Lurgi-Becher technology.
The suitability of Lurgi-Becher process for the conversion of low grade
Orissa ilmenite (~50% TiO2) to 92% grade SR has already been established
by LURGI, Germany.
Once these two plants become operational
to its full name plate capacities, OSCOM has to supply as much as 2,40,000
TPA of ilmenite to the proposed Joint Venture Companies. All the SR produced
from the bigger plant will be bought by ISK for their Singapore Pigment
Plant.
To sum up it can be said that OSCOM
is indeed in the process of turning around and appear to have better days
ahead-already registering more than 5 crore gross margin in the year 1997-98
with its mineral production rapidly increasing to name plate capacities.
In fact IRE has plan to take ilmenite production at OSCOM well beyond its
present name plate capacity, targetting a figure of 4,50,000 tpa to meet
the demand of domestic and international market during the X th Plan period.
OSCOM will also have access of three different technologies for the production
of value added material like SR.As per the IREL Corporate plan, OSCOM with
its present sales turnover of about 51 crores is expected to emerge as
a profit making unit. Such transition of OSCOM form a loss making unit
of IREL to a profitable one will be no doubt hastened up once its financial
restructuring proposal to take care of its outstanding loan and accumulated
interest is favourably considered by the Government. |