Boiler

2008 - 2009.


John R. Bentley 2009.

Model Watertube Boiler

-  A miniature industrial D-type boiler  -

This was about the state of the boiler last time



It had progressed to this state prior to starting the pressure vessel (circa Jan. 25, 2009)
(the front has since been cleaned up)
 
 
 
 
The red primer is being used as a visual to aid for sanding, etc. prior to final finishing
 
 

There is a lot to do before I start any silver brazing on the new boiler.  I have been doing much brainwork in working out the tube layout - but I have little to work with... The decisions were taken and I completed drilling the two drums.  At least there is now a hole at every required location - however that is only the beginning. I have arranged things so that most of the water tubes do not enter the thick drum walls along radii, but at various angles. This tubing (1/4" - 24 gauge) cannot take sharp bends without deforming. This is to allow me to use the largest possible water tubes with thinnest possible walls, since this arrangement requires the least sharp bending.  It is the ideal tubing for a watertube boiler - very good heat conduction to the water.

Which brings us to the two jobs facing me prior to silver brazing.  First the holes must be made in a shape somewhere between elliptical and oval.  Fortunately, I think I can form them once I determine the exact entry angle, by introducing a rotating reamer and then twisting the drum slowly until the required angle is reached.  It will not be a good time for mistakes.  The second job of course is to make all the tubes, putting in the bends where needed, cutting them to length and then re-opening the ends out to the original size.
 
A long term concern is for my dwindling supply of heavy-wall copper pipe in the 50mm to 150mm range.  I have some, but not a lot.  To buy it here these days would require having a five metre length shipped from who knows where - arriving dented after long, careless (and expensive) shipping.  The total cost would be ridiculous.  I used to buy it in any length, over-the-counter in one of several shops here in town.
 
 
My progress as of Feb 16/09
 
 
 
And here's how that came about:
 
 
Since the drums will have bumped-out heads, I had to remove the equivalent amount of shell length in order for the completed pressure vessel to fit within the boiler casing.
 
 
 
 
Finishing off the drum ends in the Craftex lathe
 
 
 
The ends needed to be square, as I used them for reference them to mark out the tube rows
 
 
 
 
Punch-marking the lower drum under the Lomo stereo microscope
 
 
 
 
Drilling the pilot holes with my new continuously variable drill press
 
 
 
 
This drill has lots of power
- it breaks through smoothly
 
 
 
 
Testing the lower drum in situ in the enclosure
(still part way through the drilling process)
 
 
Note that eventually all inside surfaces of the enclosure will be clad with mirrored aluminium tape
which will have an overlay of 1/2" thick high-temperature insulating blanket
 
 
Inside the (small) mud drum
 
 
 
The small drum
 
 - the drum is much closer so the camera lens causes it to falsely dwarf the boiler casing!
 
 
 
The larger (upper) steam drum
Masking tape used to lay out each tube row
 
 
 
 
Under the microscope I marked the positions by hand with a prick punch
I later used a small hammer on the workbench to tap the punch harder
(finally the finished dimples to the left of the masking tape have been expanded with an automatic punch)
 
                                                                     LED light
 
 
 
Another check to be sure I wasn't going astray!
 
 
 
 
Finally the holes for the steam outlet, two safety valves and
vent valve were cut on top of the steam drum
 
 
There will be considerable internal structure in this upper drum
(at this point I am still working out those details)
 
 
A close-up view of the work as of Feb 16, 2009