I ask because my perception in reading your comments is that theory translates nicely to real-world practice (which is also what I get from reading the Hyperloop white paper), when the reality IME is that it almost never does.
For example:
If it's possible to make two tunnel boring machines meet at the middle of the English channel with the starting points separated by some 20 miles, then it's entirely possible to build a pipe-section-holding jig which can ensure precise alignment.
Of course it's possible, I've never claimed that it wasn't. The issue isn't "is it possible" it's "can it be done at less cost than current proposals." History shows numerous examples of new construction techniques that worked great on paper, but had significant implementation flaws - for example soil freezing was supposed to be a panecea on the Central Artery/Tunnel project, but there were a ton of problems in the implementation and unexpected results that needed to be dealth with. Even your Channel Tunnel example proves this point - it used a lot of innovative technology and it came in late and over 80% over budget.
You talk about a welding rig that doesn't exist as a fait accompli. You wrote "My point was to say that it's entirely possible to fit that size of a tube onto a semi trailer with no hardship at all.' - that's bull, I've seen crews have a difficult time moving smaller and lighter pieces off and on semis. "No wide corners, no permits, no height restrictions, none of that" - really? You're familiar with every possible street route along the proposed Hyperlink corridor? Because if a truck gets stuck someplace (it happens: http://www.wwlp.com/dpp/news/local/hampden/truck-stuck-at-ho... ) the project is in for a bad time. And again, we haven't even begun to address NIMBY issues.
That said (and I'm being serious here) if you have the chops to make solutions like this work, you need to be working (or consulting) for the big engineering firms like AECOM, PB, CH2M Hill, Jacobs, etc. Your ideas could revolutionize the industry.
The difficulty isn't making the machine, it's finding someone with the constitution to ride out the periods of uncertainty and doubt while all the bugs are being ironed out.
Exactly. That period is called "final design and construction." It's been the death of many construction and A&E firms.
Again, I'm referring just to the pipe alignment and orbital welding rig. The orbital welding part is a well understood problem and solution. I could call up half a dozen companies today and for $20k buy an orbital welder in the 10-20" range. That's off the shelf. If I wanted to scale that up they might have to custom fabricate the tracks to guide the welding portion, but that's trivial. It might cost another $20k if the size is really big, and make another $40k if I want to buy a REALLY big power supply so that it can weld faster but as a class of problems orbital welding is a solved one.
As far as loading tubes go, you're likely going to build a tube rolling facility. These kinds of places tend to have overhead cranes. Big ones. Cranes that can grab the tube on both ends and thus have precise control over it. Most likely the loading would be done "indoors" so weather is mostly factored out. Building semi-circular restraints that grab the tube in 3-5 places along the 50ft length is done easily enough with a water-jet or you could roll a pipe into a semi-circle and weld supports to it. Once you have the custom trailer done it's relatively straightforward. You'd build the infrastructure to handle this in a highly automated fashion, similar to how container ships get loaded and unloaded. ~350 miles is 36,960 50ft sections of tube, double it since we're doing double-wide. If you know you need that much at the beginning there's a lot of work that can be done to make the whole thing reasonably efficient and cost effective.
I don't understand why you're expanding the scope to NIMBY or access roads or stuck trucks (locate the plant near the freeway) or any of this. I was talking specifically about the loading and unloading of pipe and making a jig to hold said pipe for precise welding.
Again, when I said "The difficulty isn't making the machine, it's finding someone with the constitution to ride out the periods of uncertainty and doubt while all the bugs are being ironed out." I'm referring only to building the alignment/welding machine, not the entire Hyperloop system. I realize that building the whole thing is immensely more difficult than building the alignment/welding jig. But we're inventing very little new stuff here, mostly repurposing things or making incremental changes.
All the "final design and construction" that you're talking about has the same risks and problems for the HSR as for the Hyperloop. If I have to be exposed to an 80% cost overrun I'd rather it was on a $5bn or $7.5bn project rather than an $80bn one. Maybe Hyperloop even has a 300% cost overrun and somehow the HSR project could come in 25% under budget. Hyperloop would then be (assuming the bigger version) $22.5bn versus the rail at $60bn.
The reason I don't work at a big engineering firm is that I couldn't get hired in at a senior enough level to actually get anything done. So I work for small companies. Thus far my track record is excellent but it would probably take me another 10-15 years for me to have enough successes at difficult projects for people to stop assuming it's a fluke. And by then I might not be too interested in risking my career on every project I work on.
This is why startups are even possible. The risk aversion of senior management makes it possible for people who are too young and too dumb to know that something's "impossible" to make it happen. If you've got any ideas how I could get hired at a big construction firm at a senior level I'm all ears.
They're using a $45mm, 45 foot diameter TBM in Miami right now that's 450 feet long, has the ability to erect concrete rings inside of the machine, and can exert crazy pressure on the rock face. http://www.portofmiamitunnel.com/faqs/tunnel-boring-machine/
I'm suggesting something with less challenging specs and suggesting it could be built for less money. I don't think it's unreasonable.
For example:
If it's possible to make two tunnel boring machines meet at the middle of the English channel with the starting points separated by some 20 miles, then it's entirely possible to build a pipe-section-holding jig which can ensure precise alignment.
Of course it's possible, I've never claimed that it wasn't. The issue isn't "is it possible" it's "can it be done at less cost than current proposals." History shows numerous examples of new construction techniques that worked great on paper, but had significant implementation flaws - for example soil freezing was supposed to be a panecea on the Central Artery/Tunnel project, but there were a ton of problems in the implementation and unexpected results that needed to be dealth with. Even your Channel Tunnel example proves this point - it used a lot of innovative technology and it came in late and over 80% over budget.
You talk about a welding rig that doesn't exist as a fait accompli. You wrote "My point was to say that it's entirely possible to fit that size of a tube onto a semi trailer with no hardship at all.' - that's bull, I've seen crews have a difficult time moving smaller and lighter pieces off and on semis. "No wide corners, no permits, no height restrictions, none of that" - really? You're familiar with every possible street route along the proposed Hyperlink corridor? Because if a truck gets stuck someplace (it happens: http://www.wwlp.com/dpp/news/local/hampden/truck-stuck-at-ho... ) the project is in for a bad time. And again, we haven't even begun to address NIMBY issues.
That said (and I'm being serious here) if you have the chops to make solutions like this work, you need to be working (or consulting) for the big engineering firms like AECOM, PB, CH2M Hill, Jacobs, etc. Your ideas could revolutionize the industry.
The difficulty isn't making the machine, it's finding someone with the constitution to ride out the periods of uncertainty and doubt while all the bugs are being ironed out.
Exactly. That period is called "final design and construction." It's been the death of many construction and A&E firms.