Tag Archives: FUEL

Alternative Fuels For Blast Furnaces

The largest scorching metallic producer in the metal crops is the course of of decreasing iron ore in Blast Furnaces. Till date the primary reductant has been coke, which generates carbon monoxide when it burns in the tuyeres. This carbon monoxide and the warmth of this response is being used to decrease and smelt the iron ore to produce scorching metal

Due. to increasing charges and non-availability of good coke for blast furnaces, various fuels are being used more and more in blast furnaces

The. availability of various fuels is increasing as more and more as industrial wastes containing carbon are being generated by various processes. Tar ,plastics, rubber, various sorts of oil are viable alternatives

The. metal industry as a complete have began coal and natural fuel as a secondary gas which is a much cheaper alternative against coke to sustain stiff global competitors due rising charges of coking coal in Blast Furnaces. However not many metal crops have gone in for further substitutes like plastics and rubber as they require systematic organizational again up and vendor progress alongside with authorities support

In. nations like Japan and the European Economic community nations like Germany and France new release of waste oil and plastics have turn into an environmental hazard. Also they have developed viable methods and association to inject plastics and oil as counter measure to lower down pollution and decrease the effects of Green House Gases

To. decrease coke rate already has ventured into tar injection in Bhilai metal plant and is in the course of of growing systems for oil injection in other furnaces in Bhilai Steel Plant. Injection of coal has been already began in Bhilai and Bokaro Steel Plants

Reduction in coke rate by alternative with other fuels helps the reduction of new release of green dwelling gases as gases are more effectively used inside the furnaceThe. useful use of gases can also be accomplished by various technological methods particularly by pior therapy of raw materials and allowing minimum gangue material inside the furnace

It. is very evident from the truth that Indian Blast furnaces generate practically 26. tonnes of CO2 per tonne of metal manufactured in comparison to 12. tonnes of CO2 new release by a Japanese or an European manufacturer

A. major part performed in sustaining low coke rate by allowing minimum gangue material by benificiation of ores to be certain an Fe wealthy burden alongside with use of low ash coke five hundred. This ensures a low slag rate stopping wasteful expenditure of carbon containing reductant which in flip cuts down on new release of green dwelling gases

Use. of Plastics as gas in Blast furnaces

The use of plastic as an emerging various in the customer industry has shown a speedy progress in its production and use both in the developed and growing nations. The product being non-biodegradable poses immense environmental hazard is however relatively suited as a reductant when injected in the Blast furnaces after proper processing

The. Indian plastic industry is going leaps and bounds in phrases of consumption and progress. The per capita consumption of plastic is anticipated to grow to around 6 kg in 2004 and is anticipated to treble each 10years. Available present waste plastic for recycling has risen from a figure of 6374,000 T in 2001 to approximately 9000,000 T ( Nine million tons ) It. is relatively a substantial amount in phrases of new release however needs to be organized effectively when required to be charged inside the furnace

The. injection of plastics in blast furnace has some restrictions in phrases of plastics containing chlorine such as PVC. The cause being HCl new release causing corrosion in pipe traces and effecting the discharged water in settling tanks. This subsequently leads to damage for the complete integral part of the plant consuming from one single source

The virtue of plastics being consumed in blast furnaces is that high temperature reactions do not let formation of dioxins as re-synthesis reactions do not take place which is really harmful for human beings. Thus incineration of plastics is being banned in nations which were using it as a gas for strength new release as they were not able to maintain high temperature for incineration

The scrap new release from plastics are from various sources such as plastic tanks, mouldings, bottles. Sheets containers and so on. Hard plastic bottles termed as PET are commonly handled separately

Tar. injection in blast furnaces

Tar injection in Blast Furnaces turned a viable various for Blast furnaces as a hunch in the market for tar and tar products occurred in the mid sixties Also metal crops which modernized in metal making from open fireside to converters had surplus of tar due to reduced consumption. Injecting this tar into blast furnaces was a viable various with rising coke costs

While. stoichiometrically all carbon burns finally to kind CO, fuels like tar, natural fuel and oil need to burn to CO2 first and then further react with coke to kind CO. This is a major distinction between injecting pulverized coal and these fuels

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Two Fuel Rods Removed From Fukushima Reactor

This article was written on July 19, 2012 in my blog. Last year due to massive tsunami and earthquake the building containing pool and reactor were destroyed through the failure of cooling systems through an explosion and the cores of three reactors melted subsequently. The fuel in the cores of reactors is sealed through thick containment vessels.

With the help of giant crane two fuel rods removed from Fukushima nuclear plant. This process is very delicate and long. This has been done to ensure more safety to the plant. This can reduce the risk of radiation which has been infamous for recent disasters. The task is to put all of one thousand five hundred and thirty five rods in reactor number four to be pulled eventually and to be kept in a safer place far away from humans.

Fukushima reactor

The time could take to remove all the rods can be at the end of the next year and for this great human capacity and also extreme care needs to be taken into. Last year due to massive tsunami and earthquake the building containing pool and reactor were destroyed through the failure of cooling systems through an explosion and the cores of three reactors melted subsequently.

At that time there were widespread fear and apprehension about large scale leakages of radioactivity that was stored in the pool, which are not protected and sealed through thick containment vessels. The fuel in the cores of reactors is sealed through thick containment vessels. Then the decision was taken to remove all the rods that have the prominence of radioactivity in the future to safeguard the interests of the people.

The company which is undergoing this process will see the amount of state of deterioration in metals caused by oxidation or chemical action in the rods and what percentages they are deteriorated through chemical process and sea water as during the tsunami the water is being used to cool the temperature of reactor down. These steps are being taken to safeguard for nuclear security reasons.