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Showing posts with label Iron ore. Show all posts
Showing posts with label Iron ore. Show all posts

Indian Steelmakers urge PM Narendra Modi to ban iron ore export for six months

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30-Dec-2020

Hot-rolled coil prices have increased by 46 percent to Rs 52,000 per tonne in November as compared to Rs 37,400 per tonne in July this year. Rebar TMT, which is used in the housing and construction sectors, had touched Rs 50,000 a tonne, industry sources said.

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Indian steelmaker’s body, the Indian Steel Association (ISA) yesterday wrote a letter to Prime Minister Narendra Modi, explaining that the metal price hike was due to surging raw material costs, and also requested him to impose a temporary ban on iron ore export till the supply side stabilises for the key raw material.

Indian Steel Association currently represents almost all the major Public and Private Sector steel producers of India and intends to be focal point for steel industry related deliberations in the country and abroad.

The Indian Steel Association (ISA) approached Prime Minister’s Office after Union Road Transport and Highways Minister Nitin Gadkari wrote a letter to the prime minister on the impact of rising steel prices on infrastructure projects.

"We would like to highlight some of the very serious and compelling reasons which have left the steel industry with no recourse, but to raise prices of steel from time to time," the ISA said in its letter to the PMO.


Hot-rolled coil prices have increased by 46 percent to Rs 52,000 per tonne in November as compared to Rs 37,400 per tonne in July this year. Rebar TMT, which is used in the housing and construction sectors, had touched Rs 50,000 a tonne, industry sources said.

In their letter ISA mentioned about the issues related to iron ore, price rise of raw materials, shortage in global steel supply and lower capacity utilization because of lockdown due to COVID 19.

"Due to a temporary shortage of steel in the wake of the COVID-19 disruptions, the international prices surged to over USD 750 per tonne from the bottom of USD 397 per tonne witnessed this year. As India is an open economy, the steel prices in the country move up with the global prices," ISA secretary general Bhaskar Chatterjee said.

He also mentioned that iron ore price has increased more than double from Rs 1,960 to Rs 4,160 per tonne in the period of June-December 2020.

"With an increase of Rs 1,000 in iron ore prices, the minimum impact is Rs 2,000 per tonne in steelmaking," Chatterjee said.

Iron ore production in the April-October period of 2020 was at 92.08 million tonne, registering sharp degrowth of 30 percent over the same period last year.

On the other hand, iron ore exports had surged by 70.3 percent to 29.2 million tonne in the first half of the current fiscal.

Explaining why the metal price has been raised, the ISA said Indian crude steel production fell by 19 percent in the current financial year.

"Indian steel industry faced severe disruptions in production caused by the unprecedented COVID-19 pandemic. Consequently, many steel companies in India with sub-optimal operating capacity showed substantial cash losses due to non- absorption of huge fixed costs for the quarter ended June 2020," it added.

(Source: Moneycontrol / PTI, edited)

Development of FINEX Process and Steel Plants with FINEX in Operation

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In the present article we give a brief data about how the FINEX process evolved from COREX technology, FINEX plants were started and subsequent developments and changes brought in those FINEX plants with their effects besides, the steel plants with FINEX process in operation (existing & upcoming FINEX Plants). Also Read: 

FINEX® Process, smelting reduction technology of iron making - Features, Merits and Limitations     


Development of FINEX Process and FINEX Plants

The FINEX is the latest addition and an optimized fine-ore smelting reduction (SR) process of iron making developed by POSCO that can be considered as an offshoot of COREX technology. In December 1992, POSCO and Primetals Technologies signed a cooperation agreement for the joint development of the FINEX Process. The first FINEX plant with a pilot scale production was started on November 14th 1995. In 2002 POSCO converted one the existing COREX plant into FINEX F-0.6M demonstration plant with a nominal capacity of 0.6 MTPA hot metal production, which commenced operation in May 2003. In July 2014, POSCO stopped the operation of this plant and at present it is in the final stage of agreement with an Indian steel maker for its reinstallation in India (discussed  under Upcoming FINEX plant in India).

Having successful results and following optimization of equipment and process parameters, POSCO decided to install the industrial FINEX F-1.5M Plant (1.5 MTPA production capacity). The work was started to build the first commercial FINEX F-1.5M plant by POSCO in August 2004 which finally commenced operation in April 2007.

Based on the successful results of the F-1.5M FINEX Plant, POSCO and Primetals Technologies decided to further develop F-2.0M FINEX plant with an annual hot metal production capacity of 2 MTPA. The job was started by POSCO In 2011 to build the first FINEX F-2.0M and the plant has been successfully put into operation in January 2014 and according to POSCO, the F-2M FINEX plant produced 1.5 million tons of hot metal in the first 11 months.


Modifications made in the F-2M FINEX Plant with their achievements

The design of the third generation F-2M FINEX plant is characterized by a simplified plant concept resulting in decreased construction weights compared to the F-1.5M concept. Besides others, following major changes in its design are attributed to its achievement: 

  • Pneumatic ore charging to the fluidized bed reactors including a 3-stage fluidized bed reactor system resulting in a decreased building height of more than 30%
  • Simplified system configuration in the hot compacting system and implementation of dry de-dusting equipment
  • Elimination of HCI bin and related top gas system in the melter gasifier tower
  • Installation of a centre charging system for hot HCI and coal, allowing for homogeneous charging of feed materials to the melter gasifier. The distribution on the char bed surface is realized via a dynamic gimbal distributor.

These modifications helped in reducing overall construction weight of the FINEX F-2.0M plant by approx. 9% and required no larger space in the plant layout. After start-up in January 2014, operation optimization and facility stabilization, the productivity of the F-2.0M plant achieved its target value of 5760 t/d in April 2014. Since then operation targets are achieved and operational optimization is under progress to further optimize coal consumption.

Due to improvements in equipment and operational skills, a target availability of greater than 95% could be achieved in the first few months of operation.


Upcoming FINEX Plants in India

POSCO and USPL

In Aug’15 POSCO signed a memorandum with Uttam Steel and Power Limited (USPL) to set up 3 MTPA integrated steel plant in Maharashtra (India) at an envisaged investment of nearly ₹ 20,000 crore (Approximately 3.07 Billion USD). The proposed project at Satarda in Maharashtra’s Sindhudurg district in India is based on POSCO’s patented Finex process. For complete details please refer to our article POSCO signs MOU with Uttam Steel and Power Limited (USPL) to set up a 3 MTPA Integrated Steel Plant at Satarda, India


POSCO and MESCO 

Earlier in this year Mideast Integrated Steel Limited, the flagship company of Mesco Group, India signed a memorandum with South Korean steel maker POSCO to use FINEX technology at its Kalinganagar plant in Jajpur district of Odisha (India). The first FINEX plant of POSCO which they ceased operating since July 2014, is to be transferred to MESCO. This project is part of the USD 700 million first phase steel expansion project to take Mesco Steel's capacity to 2 million tonnes. Presently, Mesco Steel operates two blast furnaces in its plant at Kalinganagar. The company has its own iron ore mine in Roida Barbil region of Keonjhar District in Odisha and another iron ore mining lease at Malangtoli in Odisha. In this month both Posco and Mesco have agreed for next meeting in November this year to discuss the modalities for transfer of Finex technology. After that, the process of dismantling of Posco's Finex plant in Korea and its subsequent installation at Mesco premises would take off. The Finex plant during operation would need a running 100 Mw captive power plant (CPP) and an oxygen plant of 1,000 tonne per day (tpd) capacity. Finex process is expected to cut hot metal production cost for Mesco by Rs 2000-2500 per tonne.

Available FINEX Modules

Different sizes of FINEX modules and capacity made available by POSCO to meet specific requirements of the customers are:

 Related Articles 

FINEX® Process, smelting reduction technology of ironmaking - Features, Merits and Limitations

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28-June-2020
What is FINEX ?

The FINEX is the latest addition and an optimized fine-ore smelting reduction (SR) iron making process based on the direct use of the coal and iron ore fines. FINEX Process is a fluidized bed based process using ore fines instead using iron ore lumps and pellets. This is a process with great potential with regard to productivity and the low cost production of hot metal.
In 1992, POSCO and VAI, Austria signed an agreement to work together for a joint development of the FINEX Process. And accordingly, FINEX process was developed jointly by POSCO, Korea and Primetals Technologies to provide the iron making sector with the capability of producing (hot metal) at a reduced cost, lesser environmental pollutions and more flexibility in terms of operation and the choice of raw materials. Primetals Technologies Limited, is a joint venture of Siemens VAI Metals Technologies and Japan’s Mitsubishi Hitachi Metals Machinery (MHMM).
The present article contains about:
  • What is Finex process
  • Benefits or Merits of this technology
  • Some limitations or disadvantages of Finex technology
To know more about the Steel plants with FINEX process in operation as how these FINEX plants were started and subsequent developments and changes brought in those FINEX plants, read: 

https://www.industry.guru
Fig: FINEX Technology (Flowsheet)
FINEX Process of Iron Making - An Overview
In the FINEX process the iron production is carried out in two separate Process steps. In a series of fluidized bed reactors, fine-grained iron oxides are reduced to direct-reduced iron, compacted and then transported to a melter gasifier. Coal and coal briquettes charged to the melter gasifier are gasified, providing the necessary energy for melting in addition to the reduction gas. Fine ore and additives (limestone and dolomite) are dried and then charged to a 3 or 4 stage fluidized bed system where the iron ores are progressively reduced in counter current flow with the reducing gas to fine DRI and the fine additives are partly calcined.

Reactors R4 and R3 are primarily used to preheat the ore fines to the reduction temperature, which can be adjusted by partial combustion of the off-gas (export gas) from R2. In R2 the fine ore is pre-reduced to reduction degree (RD) of about 30%. At the end of the production in R1, the final reduction to DRI takes place (RD about 90%). Operational pressure in R1 to R4 is approximately 4 - 5 bars. The fine DRI is compacted and then charged in the form of Hot Compacted Iron (HCI) into the melter gasifier. So, before charging to the melter gasifier unit of the FINEX unit, this material is compacted in a hot briquetting press to give hot compacted iron (HCI) since the melter gasifier cannot use fine material (to ensure permeability in the bed). Non-coking coal (lumpy and / or briquetted fines) is charged from the top of the melter gasifier, dried and degassed in the upper char bed area and finally the degassed coal (char) is gasified with pure oxygen which is blown in at the tuyere zone of the melter gasifier bed. The gasification supplies the energy required for the metallurgical reactions and for the melting of HCI and coal ash to hot metal and slag. Pulverized coal injection (PCI) system is provided to inject fine coal via the oxygen tuyeres. The gas generated in the melter gasifier of the FINEX unit is used to reduce the ore in the reactors preceding the melter gasifier. The generated FINEX off-gas is a highly valuable product and can be further used in power generation or heating processes. The DRI is charged in the melter gasifier in hot condition, where it is melted, fully reduced and carburized to hot metal. The hot metal and slag produced in the melter gasifier is frequently tapped from the hearth similar to the blast furnace and COREX operations. Also refer COREX Process of Iron Making - its Merits and Demerits.

FINEX Process - Merits and Benefits
In many respects FINEX process can be considered as an offshoot of COREX process and hence, bear the various advantages of the COREX and more as outlined below -  
Flexibility in Raw Materials
  • No blending of ore & coal. Rather direct utilization of coal.
  • Use of Low-grade ore & low-ranked coal. Integration of the coal briquetting technology increases the range of suitable coal blends for the FINEX application. Utilization of 100% coal briquettes offers the possibility to mix different coal qualities for the generation of coal briquettes.
Easy & Flexible Operation
  • Independent control of reduction & melting processes
  • Easy & hassle-free operational control
Environmental Friendliness
  • Far less emission of SOx, NOx, phenols, sulphides, ammonia & dust because the FINEX process does not need sinter plant and the coke oven battery which are the actual sources of emission in a conventional blast furnace route.
  • Applicability to the CO2 sequestration.
Cost Competitiveness
  • Lower cost in both capital investment & operation as compared to the blast furnace route, keeping the quality of the hot metal same.
  • According to POSCO, the capital cost & operating cost of FINEX process are less than by 20 and 15 percent respectively of that of Blast Furnace route. 
  • Need much less land as compared to conventional BF complex.
  • Similar to the Corex export gas, FINEX export gas (with calorific value of 5,500 – 6,250 kJ/m3 STP) can be used to substitute natural gas, oil, coke and coal for metallurgical applications and power generations etc. Depending on the composition of coal and the decision whether gas recycling is applied or not, the amount and the composition of the export gas can vary within definite limits.
Limitations (Demerits) of FINEX Process
As said FINEX, COREX, HISMELT are the latest alternative methods for producing liquid iron (Hot Metal) through Smelting Reduction (SR) process. Some of the limitations (disadvantages) are -
  • Ease of obtaining FINEX technology is uncertain though POSCO has started to extend it.
  • Both COREX and FINEX processes need a large amount of oxygen.
  • The major criteria for an initial evaluation of coals or coal blends for the FINEX Process are: 1. Fix carbon content at a minimum of 55%, 2. Ash content up to 25%, 3.Volatile content lower than 35%, 4. Sulphur content lower than 1%
  • Additional to these qualities the coal must have a good thermal stability to ensure the formation of a stable char bed in the melter gasifier. 
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