DE970258C - Plant for the generation of hot air and hot water or steam for the purpose of utilizing the heat contained in exhaust gases - Google Patents

Description

System for the generation of hot air and hot water or steam for the purpose of Utilization of the heat contained in exhaust gases The invention relates to a system for Generation of hot air and hot water or steam using the waste gases of industrial furnaces or shaft furnaces, in particular cupolas, contained sensible and latent heat, with a hot wind generating recuperator and a heat exchanger for hot water or. Steam generation in the exhaust gas flow arranged parallel to each other are.

To the extent that the air conditioning or ventilation of iron producing or processing companies, in particular foundries, in the interest of maintaining health of the people employed here is promoted, the entire heating industry wins these companies continue to gain in importance. If you also, z. B. in foundries, since the heat still contained in the exhaust gases from the cupolas is partly used for generation exploited by hot blast for the furnace operation, the heat utilization is mostly very imperfect, because on the one hand there is almost always more waste heat available, than is required for hot wind generation, but on the other hand for heating of the rooms and especially for heating the fresh air to be introduced into them mostly Steam from a special boiler house is needed. It's already suggested been, the heat contained in the exhaust gases - so far they don't is required for the generation of hot blast for the furnace itself - for example to be used in connection with a gradient storage tank for heating purposes. Has the heat exchangers for generating the hot water are arranged so that they are with the recuperators for hot wind generation are wholly or partially connected in series are. In such a known, controlled according to the heat demand of the waste heat boiler Plant can only keep the wind temperature constant while blowing off the excess Top gas quantity from the top of the furnace, so that this is not yet a complete record of the total amount of exhaust gas produced for the purpose of economic recovery.

In addition, it has already been proposed to use the exhaust gases for heating to be used by steam generators.

However, the disadvantage of using steam boilers is essentially there in the fact that mostly the respective heat demand does not match the amount of heat produced agrees, so that it has already been suggested to remedy this difficulty Switch on the heat storage tank. Nevertheless, with the known systems still exists the disadvantage that either the exhaust gases emerging from the furnace are not for everyone Time can be fully used or that not at certain intermediate times enough heat is available.

The aim of the invention is now to make the entire heat economy such Companies through complete utilization of the free ones contained in all exhaust gases and bound heat and, if necessary, through sensible use of additional To improve heat sources. If you have hitherto essentially done the Exhaust gases used to heat either steam generators or hot wind generators has, in the latter case those in the. Hot wind generators not fully used Additional heat from the exhaust gas quantities passed through the same in heat exchangers should be used for hot water generation, so is the invention a system created according to which the exhaust gas heat as possible at every moment can be completely put to beneficial use, independently of the quantitative fluctuations in the gases produced. However, it should be in everyone Operating state the hot blast temperature regardless of fluctuations in the rest Operating conditions can be kept constant.

The system according to the invention can be used particularly advantageously in Connection with cupola furnaces in foundries, but can also be used just as well for corresponding Systems such as shaft furnaces of various types or remelting furnaces and similar applications find, if necessary in obvious, appropriate modifications.

The invention consists first of all in that the division of the entire accumulating exhaust gas amount on the hot blast recuperator on the one hand and the hot water or steam generator on the other hand depending on the adjustable as required hot blast temperature to be kept constant or to be regulated takes place.

For this purpose, depending on the hot air temperature automatically controllable distribution devices must be installed.

As a result of this controllable exhaust gas volume distribution, at any moment the entire amount of exhaust gas produced can be used. You can also use the exhaust gases, which flow through the hot blast recuperator after they have a large part of their here Have given off heat, even in the lowest level of the hot water heat exchanger Introduce so that the residual heat for heating the cold water is also used here will. With such an arrangement it then follows that, in principle, the parallel connection of the hot wind generator and hot water heat exchanger still a common one for both branches Heat exchanger is preferably connected downstream for water preheating.

To generate hot water or to carry out a certain Various types of heat exchangers can be used for evaporation be, so z. B. finned tube preheater, coil preheater or pre-evaporator, all in a known construction.

To release any bound heat contained in the exhaust gases To make it known per se, the gases first in a combustion chamber Allow to burn out before being introduced into the heat exchanger will. In the further expansion of the invention, the combustion of the exhaust gases is now the parallel system of hot air and hot water or. steam generating Heat exchanger a combustion chamber equipped with water-cooled surfaces upstream. These water-cooled surfaces can be formed, for example, by pipes are flowed through by water in forced or natural circulation or also in forced flow will. This ensures that the temperature of the combustion products is above the entry into the downstream heat exchanger can be reduced to such an extent that There is no inadmissible material stress in these. Also results This has the advantage that the temperature of the hot water generating Heat exchanger coming water can be further increased or the water in the cooling surfaces the combustion chamber can turn evaporated. It also opens up through this measure the possibility of significantly reducing the load on the combustion chamber to increase and to train the combustion chamber itself effectively as a dust extractor.

Taking into account the sharp fluctuations in the amount of available standing exhaust gases and thus the amount of hot water or steam generated is this Hot water or steam generating system expediently a heat accumulator downstream, from which then in a known manner the heat consumers of the company, such as B. Heating, air conditioning, heat exchangers for hot water supply etc., are fed.

Especially if there is a possibility that despite the complete Utilization of the heat contained in the exhaust gases and its appropriate distribution the heat demand of the company at times through interposed heat storage this cannot be adequately covered, it is advantageous to use the inventive The system has to be expanded so that the combustion chamber can be equipped with an additional combustion system equipped in the form of a grate, coal dust, oil or external gas furnace. In this Case. under certain circumstances you can even do without switching on a heat storage tank, provided that the heat demand of the company is so great that that from the exhaust gases recovered heat is always used immediately. In itself it is not absolutely necessary to place the auxiliary firing in the combustion chamber itself; you can too the combustion chamber, in which the latent heat of the exhaust gases is released, a special combustion chamber for additional hot water or steam generation Connect in parallel with external heating. In itself you already have hot blast cupola systems built, in which in addition to the heating of a recuperator by means of furnace exhaust gases in the combustion chamber or the line leading to the kekuperator gas or oil burner were installed. However, this was only done to preheat the system or for purposes the control of the hot blast temperature and not, as in accordance with the present invention, an amount of heat that exceeds the heat required for the generation of hot wind produce.

A particular advantage of the expansion of the invention by the additional heating the combustion chamber results in terms of the fly coke and dust separation from the exhaust gases.

For example, if you go between the combustion chamber and the heat exchanger system separates the dust carried along by the exhaust gases, it can be used if necessary melt in the furnace of the combustion chamber so that one - how it is known per se in steam boilers - the melted fly dust in the form withdraws from liquid slag, which in turn can then be used for a wide variety of purposes, z. B. can be supplied in connection with the cupola slag.

The combustion chamber can be equipped with a recuperator for the generation of hot air and the heat exchanger for hot water generation or evaporation advantageous assemble into a unit. For carrying out the combustion in the combustion chamber you can. furthermore, as it is known per se from Hevßwinderzeugun, gsanlagen for cupola furnaces is, also use part of the hot wind that is generated in the recuperator. In the further development of the invention, it then appears to be advantageous to use the recuperator a steam or hot water heated air preheater for the generation of hot air upstream, which z. B. to heat extracted steam with the heat accumulator is. You can access this by using a bypass line for the recuperator Way also significantly reduce the start-up time for the cupola, because with With the help of the steam or hot water heated preheater, right from the start of the heating process from hot air can be provided. If the height of the temperature of the In the hot blast recuperator, hot breeze generated the requirements that are often made today does not correspond, a further increase in temperature can also be achieved by a combination with a regenerative air heater that is heated with non-pre-cooled exhaust gases, or one can also use the hot air before it is introduced into the cupola additionally for the purpose of further heating by appropriate ones to be installed in the combustion chamber Lead channels, which for this purpose would have to be made of resistant material must be made.

If several ovens, e.g. B. cupolas are present, the z. B. shifted are operated, it is advantageous not to have a complete invention for every furnace To set up a system for waste heat recovery, but rather. The location of the operating times and to create appropriate combinations according to local conditions. So you can often have a common waste gas treatment plant for two cupolas, or, if several are available, a common heat storage unit for them in total use.

In the drawing, an exemplary embodiment for the system according to the invention is shown schematically. The exhaust gases coming from the cupola i are fed through the line a to the combustion chamber 3, where the latent heat contained in the exhaust gases is released. The combustion chamber 3 is equipped with a tube system q. equipped, which winds through both natural circulation and with the activation of a pump in the forced flow or circulation of water, so that the temperature of the exhaust gases is lowered so much that it can no longer be dangerous to the downstream devices. Behind the combustion chamber 3 there is a dedusting device 5, which can be designed in a manner known per se, for example as a cyclone or electric or also as an ultrasonic deduster. The dust separated here is either drawn off and transported away, or, if it still contains larger quantities of combustible components, burned out in the combustion chamber or, if the combustion chamber is operated with liquid slag removal, melted into it. The exhaust gases now pass through the line 6 to the distribution point 7. According to the invention, there is initially a distribution on the one hand to the recuperator 8 for generating hot wind and on the other hand to the heat exchanger 9 through which water flows. The distribution flap fo or corresponding devices are controlled as a function of the hot blast temperature before the entry of the hot blast into the cupola, for example at the temperature measuring point ii, so that the cupola receives wind at an automatically controlled temperature at all times. The exhaust gases, the heat of which is largely used in the recuperator 8, can either be led into the open air or introduced through the line 12 into one of the lower stages of the heat exchanger 9 so that they are here together with the exhaust gases coming from the first stage of this heat exchanger can be used to preheat water. The exhaust gases then pass through line 13. into the open air, where an induced draft fan or a chimney system can be used as required. The fresh water passes through the line 14 into the lowest stage 15 ″ of the heat exchanger 9 and then via the stage 15b either directly to the heat accumulator 16 and / or to the various types of heat consumers 17 or initially into the pipe system q. Of the combustion chamber. So far not If a certain amount of evaporation has already taken place in part i5b of the heat exchanger, in the latter case the water in the pipe system 4 of the combustion chamber is evaporated and the steam is fed to the heat accumulator 16 or the heat consumers 17. If necessary, the air preheater upstream of the recuperator can be fed through line 18 ig with steam or hot water, if necessary with the activation of a circulation pump 2o, so that the air to be supplied to the recuperator 8 or the cupola i, which is conveyed by the fresh air fan 21, has to be preheated Hot water or partially steam-powered can be supplied to the ent The necessary feed pumps must be installed in the relevant bodies.

Claims (7)

PATENT CLAIMS: i. Plant for the generation of hot air and hot water or steam for the purpose of utilizing the heat contained in the exhaust gases from industrial furnaces or shaft furnaces, in particular cupolas, wherein a hot-wind recuperator and a heat exchanger for hot water or steam generation are arranged parallel to one another in the exhaust gas flow, characterized in that, that the distribution of the total accumulating exhaust gas to the hot blast recuperator on the one hand and the hot water or steam generator on the other hand takes place depending on the hot blast temperature to be kept constant or regulated as required. 2. Annex to Generation of hot air and hot water or steam according to claim i, characterized in that that the parallel connection of the hot blast recuperator and hot water or. Steam generator a common heat exchanger for both branches, preferably for water preheating, is downstream. 3. System for generating hot air and hot water or steam according to claim i or 2, characterized in that the afterburning of the exhaust gases coming from the furnace, the parallel-connected system of hot blast recuperator and hot water or steam generator upstream, known combustion chamber is equipped with water-cooled surfaces, which may also generate steam. 4. Plant for generating hot air and hot water or steam according to one of the claims i to 3, characterized in that the hot water or steam generating part the system is followed by a heat accumulator in the hot water or steam flow. 5. System for generating hot air and hot water or steam according to one of the claims i to .4, characterized in that the for the delivery of the coming from the oven Combustion chamber with heat contained in exhaust gases with additional or basic firing is equipped. 6. System for generating hot air and hot water or steam according to one of claims i to 5, characterized in that separated from the exhaust gases Flue dust is introduced into the combustion chamber and melted. 7. Plant for the generation of hot air and hot water or steam according to one of claims i to 6, characterized in that the recuperator for hot air generation is upstream of a steam or hot water heated air preheater on the air side, which is to be heated in particular with the steam removed from the heat accumulator . Considered publications: German Patent Nos. 848 999, 872 828, 574 164, 941 5 11 , 548 0 77, 455 104, 726 778; British Patent No. 204,985; U.S. Patent No. i 795,317; W. Gumz, "Die Luftvorwärmung im Dampfkesselbetrieb", Leipzig 1933, p. 2o6, Fig. 94 (7).