DE1061474B - Air preheater with rotating storage drum - Google Patents

Description

GERMAN

For the operation of flue gas-heated air preheaters, it is essential with regard to pollution and corrosion that the temperature of the flue gases at the outlet from the air preheater is higher than the dew point of the flue gases. This is particularly important when burning inferior fuels with a high ash and high sulfur content, since with these fuels, according to a certain law, both SO ₂ and SO _{3 are produced} and SO _{3 is} present

Water the sulfuric acid H ₂ SO,
Extraordinary heating surfaces

₄ forms which are corrosive

on the
works.

It is therefore necessary to monitor the temperature of the heating surfaces and to ensure that on at the cold end of the heating surfaces, the temperature does not fall below certain minimum temperatures in accordance with the dew point limit will.

In order to prevent the dew point from falling below the dew point, which is extremely important in operational terms, there are a number of ways, such as B. bypassing the cold air, preheating by steam-heated air preheaters, Direct current arrangement in combined flow, switching off parts of the heating surface, bypassing of the economizer and circulation of flue gases. Essentially all of these measures work in addition, the mean temperature of the heating surface at the cold end is above a certain To keep the minimum value.

It is an air preheater with rotating drum Speieher known, in which the to be heated Air through one and the same drum either in a countercurrent or in a combined countercurrent and cocurrent flow to the flue gases through an impact cross section divided into two halves the drum flows. Two external bypass ducts for the air are required for this. In addition to this disadvantage, this air preheater has the fundamental disadvantage that when operated in the pure Countercurrent, the air is only passed through one half of the air admission cross-section of the drum can be.

In another known air preheater, which has two partial rotors arranged on the same shaft at a distance from one another and through which the flue gas and air flows in succession, corrosion as a result of falling below the flue gas dew point at low cold air inlet temperatures is to be avoided. This object is achieved in that the second air preheater stage is not flowed through by the two means in countercurrent, like the first, but in cocurrent. Here are the longitudinal walls within the air preheater or in the supply duct and switching options air preheater with a circumferential
Storage drum

Applicant:

LICENTIA Patent-Verwaltungs - G. mb H. _r Hamburg 36, Hohe Bleichen 22

Dr.-Ing. Richard Stroehlen, Munich,
has been named as the inventor

th provided by flaps. The structural effort is great with this air preheater.

According to the invention, the disadvantages mentioned are avoided and, moreover, within the scope of Countercurrent or countercurrent / direct current operation. Switching options for other operating modes created. The air preheater according to the invention with a rotating storage drum, in which the to heating air through one and the same drum optionally in a countercurrent or in a combined one Countercurrent direct current to the flue gases through an admission cross-section divided into two halves the drum flows, is characterized in that the duct leading the air on Inlet and outlet of the drum is divided into two halves by longitudinal walls that hold the air Countercurrent operation in parallel and with combined countercurrent / direct current operation after switchover flowed through by control members one after the other and their air outlet or air inlet side longitudinal wall for the passage of the air in the latter operation from one half of the duct to the other Has passage opening that the two channel halves lying on the passage opening side of the drum far from the drum and passage opening and one of the other two channel halves also far away the drum are each provided with a control member that can be shut off from the associated channel half and that one an air bypass line having a control element is provided, which can be shut off on the latter channel half on one side of the drum with that on the other side of the drum at a distance from the two lockable channel halves lying, channel section connects.

An air preheater according to the invention, wherein said duct section of the inlet of the Air preheater located cold air duct section can be operated so that in positions of named control elements, which the desired

909 577/106

Claims (1)

Operating conditions correspond, a subset of the cold air flows through the air bypass line in the hot air duct section. It can also be operated in such a way that the air is additionally heated before or after flowing through the drum and is heated in the drum by the flue gases. The air can be additionally heated in the bypass line. An oil burner can be arranged in the bypass line for the latter heating. Furthermore, the operation of the air preheater according to the invention can be carried out in such a way that the switchover from a combined countercurrent / direct current operation to countercurrent operation and vice versa and, if necessary, the control of the holding air bypass takes place on the basis of a measurement of the temperature of the drum. The device according to the invention can also be used in general as a heat exchanger in which, instead of air and flue gas, other media are to be brought into a heat exchange and the mean temperature of the heating surface at the cold end is to be kept above a certain minimum value. The drawing shows two exemplary embodiments of the air preheater according to the invention in a simplified representation, namely in FIGS. 1 and 2 in a longitudinal section and in FIG. 3 in a cross section. It denotes 10 an air-flue gas duct and 11 the rotating storage drum switched on in this. The duct 10 is divided over its entire length by partitions 12, 13 into a duct 14 for the flue gas duct and a duct 15 for the air duct. The channel 15 contains a further partition wall 16, 17 on the entry and exit side of the storage drum 11, whereby two entry and exit channel halves 18, 19 and 20, 21 are formed. Of the partitions 16 and 17, in the embodiment according to FIG. 1, the partition 17 on the exit side and in the embodiment according to FIG. 2 the partition 16 on the entry side are provided with a passage opening 22 and 23, respectively. A bypass line 24, which has a control flap 25, is also common to both versions. Furthermore, control flaps 26 to 31 are provided in both versions in the air duct halves 18, 19 and 20, 21 formed by the partition walls 16, 17, namely in the embodiment according to FIG. 1 a control flap 26 in the inlet channel half 18 and one control flap each 27, 28 in the two outlet channel halves 19, 21 and, in the embodiment according to FIG. 2, a control flap 29, 30 in each of the two inlet channel halves 18, 20 and a control flap 31 in the outlet channel half 19. The bypass line 24 begins and ends in the execution 1 behind the control flaps 26 and 27, 28 and in the embodiment according to FIG. 2 in front of the control flaps 29, 30 and 31. In the embodiment according to FIG. 1, an additional oil burner 32 is built into the bypass line 24 . The direction of flow of the flue gases is indicated with solid arrows and that of the air with dashed arrows. In both versions, the control flaps 25 to 31 are switched to the combined countercurrent / direct current operation. In the embodiment according to FIG. 1, the air is introduced through the cold air duct section 33 and the duct half 20. It then flows through the storage drum 11 in countercurrent to the flue gases, is then deflected in front of the closed control flap 28 through the opening 22 into the channel half 19, then flows through the second half of the air-side exchange cross-section of the storage drum 11 in cocurrent with the flue gases. then after deflection in front of the closed control flap 26 into the bypass line 24 and from this, optionally after additional heating by the oil burner 32, to flow off into the hot air duct section 34. In the embodiment according to FIG. 2, with the control flaps 29, 30 closed, the air first flows through the cold air duct section 35 and the bypass line 24. It is then deflected into the duct half 19 in front of the closed control flap 31, then flows through the storage drum 11 in parallel with the flue gases and is deflected in the duct half 18 in front of the closed control flap 29 through the opening 23 into the duct half 20, from which it is finally guided through the storage drum 11 in countercurrent to the flue gases and flows off into the duct half 21 and the hot air duct section 36. If you want to switch from the combined countercurrent / direct current operation to pure countercurrent operation, the control flaps 26 to 28 and 29 to 31 are opened and the control flaps 25 are closed in both versions. If only a single bypass line is arranged, the entire air-side impingement cross-section 15 is then available for the countercurrent. By partially opening the control flaps 25, some of the fresh air can be guided around the storage drum 11 and the starting temperature of the heating air can be changed. The embodiment according to FIG. 2 has the advantage over that according to FIG. 1 that the external bypass line always only carries cold fresh air and so, in contrast to that according to FIG. 1, does not need to be isolated. Patent claims: 1. Air preheater with rotating storage drum through which the air to be heated is passed through one and the same drum optionally in a countercurrent or in a combined countercurrent cocurrent to the flue gases through an impact cross section divided into two halves the drum flows, characterized in that the duct leading the air at the inlet and at the exit of the drum (11) by longitudinal walls (16 and 17) in two halves (18,20 and 19, 21) is divided, which the air in parallel in countercurrent operation and in combined countercurrent / cocurrent operation after switching of control elements flows through one after the other and their air outlet or air inlet side longitudinal wall (17 or 16) for the passage of air in the latter operation from one half of the duct (21 or 18) in the other (19 or 20) has a passage opening (22 or 23) that the two channel halves (19 and 21) lying on the passage opening side of the drum (11) 18 and 20) far from the drum (11) and passage opening (22 or 23) and one (18 or 20; 19 or 21) of the other two channel halves (18, 20 or 19, -21) also away from the drum (11) with one respective channel half (e.g. 19, 21, 18 or z. B. 18, 20, 19) lockable control member (27, 28, 26 or 29, 30, 31) are provided and that