Gentlemen, as this discussion appears to be turning back towards the purpose of the condenser etc, I hope that you will both forgive me for this posting. The reason for this is that I feel that in my previous postings I failed to make clear my perception of this.
As Mr Spitfire stated in a previous posting, “the steam has to be shut of at some point”, this is of course obvious.
In the event that this was delayed to the point where the piston was almost at the end of the power stroke, then there would logically be a residual pressure above the piston, and there is no way that the engine could go solid, that is become self acting. Shutting off the steam too early would waste a proportion of the stroke of the engine, by this I mean that there would be a proportion of the stroke that was not producing any power. That is assuming that the piston did actually reach the bottom of its stroke, I rather think not.
By shutting off the steam early, and allowing the space below the piston to fill with the ‘dead’ steam, the air is displaced. Then opening this space to the condenser causes the steam to condense creating a vacuum below the piston. So in effect, at this point the engine becomes ‘atmospheric’.
When the piston finally reached the bottom of the stroke, all things will equal zero.
There is no remaining space below the piston, therefore there is no vacuum.
There is no pressure remaining above the piston.
My understanding of the starting of an engine is that the engine does not go solid until a good vacuum is obtained below the piston.
Also, there is the matter of the weight of pump rods, you gentlemen will be aware of this; it is for benefit of others.
The excess weight of the pump rods is counterbalanced by the balance bobs, usually one at surface and others at regular intervals for the depth of the shaft. We all know that apart from the single bucket lift, the ‘puppy’ pumping from the shaft sump, all other pumping was done by plunger pumps whereby the pumping was done by the weight of the pump rods.
The weight of each balance would be finely governed so that the weight of that section of pump rod would only just exceed that of the water being displaced by the pole pump. Otherwise the engine would be doing unnecessary work and wasting coal, and of course there is the matter of the shock on the engine and other shaft fittings.
My point here is that the whole system is very finely balanced and finely tuned. The guys who built these things knew what they were doing. The first beam engine, albeit an atmospheric one, was installed in 1712 at one of the Earl of Dudley’s coal mines, a few miles from where I live. There is a working replica of it in the Black Country Museum. From the early atmospheric engines with boilers that leaked like sieves, up through the high pressure steam engines of the late 19th century, these things were produced for nearly 200 years. Enough time to get the job right.
I have read and reread this posting before uploading it, and feel that I cannot say any more, this may be a relief to you!
Thank you both for your tolerance.
My avatar is a poor likeness.