This invention relates to pulverizers/classifiers for coal and more particularly to a method and apparatus for replacing the OEM multiport outlet of a conventional updraft classifier with a turret capable of being fitted with diffusion elements.
Large machines called pulverizers/classifiers are used to crush and pulverize lump coal into powdered fines for injection into a combustion chamber where heat is generated to turn water into steam in coal-fired utility plants. Several types of commercial pulverizer/classifier machines are available in the commercial market, one of which is shown for illustration purposes in
Mounted concentrically with and partially inside of the skirt 72 is a Venturi 70 comprising a diverging lower cone 74 integral with a converging upper cone 76. The cone 76 is joined to the skirt 72 by angled radial vanes 78 and the lower cone 74 is secured to the chute 12 by welding or other known means.
On top of the Venturi 70 is an outlet structure comprising a heavy steel circular plate 82 with spaced bolt holes. Cut into the plate are four kidney-shaped outlet holes. Cast steel tubes 84, 86, 88 and 90 sit on and over these holes. The bottoms of the tubes 84, 86, 88 are kidney-shaped to match the holes in plate 82. Flanges 92, 94, 96 and 98 are integral with the tubes 84, 86, 88 and 90 respectively and have bolt holes drilled in them for mounting purposes.
The bodies of tubes 84, 86, 88 and 90 change shape vertically from a kidney-shape near the bottom to a circular shape near the top flanges 100, 102, 104 and 106. Those flanges are provided with bolt holes for attachment to coal conduits 46, 48, 50 and 52 shown in
The present invention provides a method and apparatus for replacing or retrofitting the outlet structure shown in
The invention comprises the steps of removing the OEM outlet structure of the classifier including the disconnection of the transition tubes from the combustion chamber feed conduits, reconditioning, as necessary, the collar flange around the classifier top opening, installing a flared turret onto the opening, and connecting outlets in the top wall of the turret to the combustion chamber feed conduits. Where desired, the method may also involve removal of the skirt and fitting a new deeper skirt around the inlet chute.
The turret entirely replaces the four transition tubes described above and eliminates the heavy Venturi structure in its entirety. Coal fines flow into the skirt and then into the annular volume defined by and between the turret wall and the coal inlet chute. From this volume, coal fines exit the turret into the four, circular outlets which are connected to the feed conduits.
If desired, the skirt may be fitted with a diffusion device such as the multi-spin mixer described in U.S. Pat. No. 6,899,041 issued May 31, 2005.
As will be apparent to persons skilled in the art, the use of wear resistant materials such as any of various carbides and cermet materials are preferably added to high wear locations to extend and optimize the life of the assembly.
Other applications of the present invention will become apparent to those skilled in the art when the following description of the best mode contemplated for practicing the invention is read in conjunction with the accompanying drawings.
The description herein makes reference to the accompanying drawings wherein like reference numerals refer to like parts throughout the several views and wherein:
Referring to
Conical shield 26, in OEM structure left in place, is mounted in surrounding relationship to the chute 12 and with the outlet structure 13 to divert coal fines upwardly where they pass around the top of the shield and down into a conical volume from which the lighter fines may continue to travel upwardly in the updraft air stream created by the pulverizer/classifier into a generally cylindrical replacement classifier skirt 28 having a top flange 30 which mates with and rests on the annular seat 15 surrounding the opening 14. The classifier skirt 28 is spaced coaxially and concentrically with the infeed chute 12 and in spaced relationship therewith to create a large annular flow volume which exits the top structure 16 of the pulverizer/classifier. If the OEM skirt 72 is in good condition and dimensionally correct, it may be reused. In this example, a replacement skirt 28 is installed.
Mounted on the flange 15 around opening 14 and in coaxial and contiguous relationship to the classifier skirt 28 is a conical turret 34 having an upwardly and outwardly diverging sidewall fitted with a bottom flange 36 which rests on the flange 30 of the classifier skirt and is secured thereto by a series of bolts 38. The turret has a top wall 40 which terminates in an outboard flange 42. The turret 34 defines a second upward flow volume which is a continuation of the upward flow volume defined within the interior of the classifier skirt 28. Skirt 28 and turret 34 can be made in one piece with a single mounting flange at 36.
The top wall 40 has a plurality of circular openings formed therein which are adapted to receive the coal fine outflow conduits 44, 46, 48 and 50, each of which is provided with an end flange 56, 58, 60 and 62, respectively, to mate with and be secured to the top wall 40 in surrounding and concentric relationship with the openings in the top wall 40. These are likely OEM conduits and may not need to be replaced.
As shown in
Referring again to
As indicated above, the materials of construction for the classifier skirt 28 and turret assembly 34 as shown in
It is further to be appreciated that the exact pulverizer/classifier structure as shown in