Title of Invention

A METHOD OF REPLACING A GENERATOR IN AN OPERATION MODE OF THE POWER PLANTS

Abstract

The invention relates to a method of replacing a generator cooler in an operation mode of the power plants, comprising placing a spare cooler in an assembly of a plurality of operable coolers; and introducing a flap element in the hot air circuit adjacent to a cooler intended for replacement, the flap preventing gushing out of air through a space created by removal of the cooler intended for replacement, thereby allowing replacement without discontinuing the operation of the power plant.

Full Text

FIELD OF THE INVENTION The invention relates to a turbo generator used in a power plant for utility or industrial application. The invention in particular relates to a method of replacing a generator cooler in an operating mode of the pouter plant. BACKGROUND OF THE INVENTION Hot air from generator is allowed to flow across the coolers where the air gives away its heat to the coolers (heat exchangers). Cooling water is continuously circulated through the heat exchangers * which becomes hot due to heat absorption and this is let out to the chillers. As per prior art) the generator is taken for a shut down, in the event one of the coalers is proposed to be replaced or repaired. Shut down is necessary as otherwise, almost entire volume of generator hot air will pass through the gap created from the removal of one of the coolers. This will make the machine ventilation ineffective. In view the above, it warrants machine shut down, when it is planned for cooler replacement/repair. Heat generated in a turbo-generator during power generation is dissipated by circulating cold air into the machine. As the size of the machine increases, in particular for generators employed in industrial and utility units* a separate ventilation system is improved to continuously dissipate heat. The ventilation system employed is either a closed circuit or an open circuit system. The closed circuit system envisages channeling the hot air across the air to water heat exchangers (coolers)* mounted in a separate cooler duct and return the cold air into the machine. Axial flow fans mounted on the generator rotor develop the necessary head. The open circuit ventilation system is used in cases when clean air available at installation site and the peak ambient temperature doesn't exceed very high values. The present invention is directed on the closed circuit air cooling system. The coolers in the system are arranged in a row while air flow takes place simultaneously across all the coolers in the circuit. As per the prior art* the coolers are assembled in a row without providing any spare cooler in the assembly. A spare cooler even if provided, the same is stored separately outside the assembly. Hence as per prior art* it becomes necessary to take a machine shut down for removing any of the operating or a defective cooler from the assembly for replacing with a spare cooler. This leads to loss of time in repair/replacement including loss of power supply and thus uneconomic. OBJECTS OF THE INVENTION It is therefore an object of the invention to propose a method of replacing a generator cooler in an operation mode of the power plants. Another object of the invention is to propose a method of replacing a generator cooler in an operation mode of the power plants which eliminates the disadvantages of the prior art. And yet another object of the invention is to propose a method of replacing a generator cooler in an operation mode of the power plants which is economic and easy to unplanat. SUMMARY OF THE INVENTION Accordingly* there is provided a method of replacing a generator cooler in an operation mode of the power plants* comprising: — placing a spare cooller in an assembly of a plurality of operable coolers} and — introducing a flap element in the hot—air circuit adjacent to a cooler intended for replacement* the flap preventing gushing out of air through a space created by removal of the cooler intended for replacement* thereby allowing replacement without discontinuing the operation of the power plant. Thus* a typical closed circuit air cooling system employed for an air cooled turbo—generator has a plurality of cooler elements assembled in a row. During the operation of a turbo—generator * the heat generated in the machine is removed with the aid of cold air. The air thus circulated into the machine becomes hot on absorbing heat from the generator. The hot air flows across the coolers and transfer the heat to the cooler elements. The cold air coming out of the cooler elements is returned to the generator. Necessary head required for affecting the air flow is provided by the axial flow fans, mounted on the generator rotor. The hot air from the generator is drawn out and circulated across the cooler elements* through an air duct configured in the concrete walls. The cooler elements are air to water heat exchangers which are hung below a supporting structure. The supporting structure in turn is anchored to the concrete walls. The hot air flows across the coolers and transfer the heat to the cooler elements. The cold air coming out across the coolers is returned to the generator. Necessary head required for effecting the air flow is provided by the axial flow fans* mounted on the generator rotor. The spare cooler element is assembled with other cooler elements in the same row but is blanked from the circuit by placing a flap. The flap is a thin sheet made out of mild steel or aluminum having a handle on one end riveted for facilitating easy insertion and removal. By using the handle* the flap can be inserted above any of the assembled row of coolers. When the flap is there in position* the cooler below a particular cooler can be removed at any time and used in place of the damaged cooler element in the circuit. Till the damaged element is repaired and reinstalled* the flap will prevent air from gushing out through the space created by the removal of the defective cooler. Thus* a cooler element can be removed for rectification without stopping the machine. As per the invention* one spare element is added to the row of existing elements. All the coaler elements are provided with an arrangement that prevents air flow across the element. The arrangement envisages blanking of any of the desired coolers at any point of time. The flap is a thin sheet made out of mild steel or aluminum having a handle on one end works as an obstruction or as a stopper to stop the air flow across any of the cooler elements. By using the handle* the flap can be inserted above any of the assembled row of coolers. When the flap is there in position, the cooler below the flap can be removed at any time for repair/replacement with a new cooler. The arrangement of flap prevents air from gushing out through this space created by the removal of defective cooler. Thus* a cooler element can be removed from rectification without stopping the machine. BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS Figure 1 - shows a general arrangement of a closed circuit cooling system according to the prior art. Figure 'Z — shows a general arrangement of a closed circuit air cooling system according to the invention* with air flow paths indicated. Figure 3 — shows the details of a flap device according to the invention. DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION Air cooled turbo generators* employed with a closed circuit or open circuit ventilation system envisages circulation of air flow in a closed path. This arrangement ensures supply of clean air to the generator* a condition necessary to protect the machine internals. A plurality of axial flow fans are mounted on the machine to suck cold air (CA) from the coolers and force the same into the machine. The fans are mounted one set each on either side of the generator. The cold air (CA)* circulated through the generator internals* takes away the heat generated therein and the air becomes hot. The hot air (HA) is brought to the center of the generator from which it is allowed to flow across the coolers (4) mounted in the air flow circuit. A cooler bank which comprises of several cooler elements (4), placed in a row* is fastened to a frame structure (3) which in turn is fastened to the concrete walls (2). Replacement is necessitated either due to the tube leakages or for replacing the water box partition gaskets. The flap (7) is made out of either thin steel or aluminum sheets and is introduced above the spare cooler element (4). A separate slot is made in the support structure facilitate easier insertion of the flap (7). The guides (9) and slots are made on all the cooler element (4) locations. Back face (B) of the supporting beam of the flap is placed adjacent to the flap (7). The generator stator is supported by a stator frame (4) which is placed on a bearing device (b). A concrete slab (1) is configured between the concrete wall (2) and the bearing device (5). WE CLAIM: 1. A method of replacing a generator cooler in an operation mode of the power plants comprising: — placing a spare cooler in an assembly of a plurality of operable coolers; and — introducing a flap element in the hot air circuit adjacent to a cooler intended for replacement* the flap preventing gushing out of air through a space created by removal of the cooler intended for re- placement! thereby allowing replacement without discontinuing the operation of the power plant. 2. A method of replacing a generator cooler in an operat- ion mode of the power plants as substantially described and illustrated herein with reference to the accompanying drawings. The invention relates to a method of replacing a generator cooler in an operation mode of the power plants, comprising placing a spare cooler in an assembly of a plurality of operable coolers; and introducing a flap element in the hot air circuit adjacent to a cooler intended for replacement, the flap preventing gushing out of air through a space created by removal of the cooler intended for replacement, thereby allowing replacement without discontinuing the operation of the power plant.

Documents:

00400-kol-2006-abstract.pdf

00400-kol-2006-claims.pdf

00400-kol-2006-correspondence others.pdf

00400-kol-2006-description(complete).pdf

00400-kol-2006-drawing.pdf

00400-kol-2006-form-1.pdf

00400-kol-2006-form-2.pdf

00400-kol-2006-form-3.pdf

00400-kol-2006-g.p.a.pdf

400-KOL-2006-(27-04-2012)-CORRESPONDENCE.pdf

400-KOL-2006-(27-04-2012)-OTHERS.pdf

400-KOL-2006-(28-03-2012)-CORRESPONDENCE.pdf

400-KOL-2006--FORM 13.pdf

400-kol-2006-correspondence.pdf

400-kol-2006-examination report.pdf

400-kol-2006-form 13.pdf

400-kol-2006-form 18.pdf

400-kol-2006-form 3.pdf

400-kol-2006-gpa.pdf

400-kol-2006-granted-abstract.pdf

400-kol-2006-granted-claims.pdf

400-kol-2006-granted-description (complete).pdf

400-kol-2006-granted-drawings.pdf

400-kol-2006-granted-form 1.pdf

400-kol-2006-granted-form 2.pdf

400-kol-2006-granted-specification.pdf

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