Only when the safety level has been shown will commercial passengers be allowed to fly, but there are other passengers where safety is of less concern and speed is essential, such as military fast response , and emergency workers.
I disagree that 1st class passengers (those expecting high class service and food) are the market, as the flight time is so short and will never be classed as luxury because of the high G- loads and zero-G element of the flight. Even food and drink might not be sensible in such circumstances. It might still appeal to people who would have been 1st class passengers on planes, so the prices can still be kept high, as these people probably value their time highly.
Aiming to cover the most distant mass routes first, makes sense. Many people dont like sitting on a plane for 20 hours and will gladly pay a high premium for a short (in time) flight and for the experience of space.Concorde only made relatively short flights where the time savings were not that great after all the time wasted getting to and from the airport and the hassles of customs and airports are allowed for.
A flight from NY to Perth(Aus) or Hong Kong taking only 30 minutes would be of much greater benefit.There will still be many people who will want to simply experience a space flight, and this may be the cheapest way for them , also allowing them to visit distant places at the same time. I see this being a very large market, even if each person only makes one flight.
I cant accept that there is much of a market for freight to totally justify P2P as there are not many goods where it is worth paying such high prices to save only max 20 hours of delivery time, but agree that it will be freight that is offered first (at subsidised rates) until the safety has been proven. Initially delays in launches , poor schedules ie 1 a day, and the unreliability of the early craft will lose much of the margin in time of such a service, but for light weight items such as replacement computer parts there may be demand for such a service especially when there are several flights a day to each destination.Only when the safety level has been shown will commercial passengers be allowed to fly, but there are other passengers where safety is of less concern and speed is essential, such as military fast response , and emergency workers.I expect to see the first P2P flight within 10 years just to prove that it can be done. Once safety has been proven, if the cost is reasonable their is much potential for such a service.I disagree that 1st class passengers (those expecting high class service and food) are the market, as the flight time is so short and will never be classed as luxury because of the high G- loads and zero-G element of the flight. Even food and drink might not be sensible in such circumstances. It might still appeal to people who would have been 1st class passengers on planes, so the prices can still be kept high, as these people probably value their time highly.Aiming to cover the most distant mass routes first, makes sense. Many people dont like sitting on a plane for 20 hours and will gladly pay a high premium for a short (in time) flight and for the experience of space.Concorde only made relatively short flights where the time savings were not that great after all the time wasted getting to and from the airport and the hassles of customs and airports are allowed for. A flight from NY to Perth(Aus) or Hong Kong taking only 30 minutes would be of much greater benefit.There will still be many people who will want to simply experience a space flight, and this may be the cheapest way for them , also allowing them to visit distant places at the same time. I see this being a very large market, even if each person only makes one flight.
Quote from: colbourne on 08/06/2018 03:54 amI cant accept that there is much of a market for freight to totally justify P2P as there are not many goods where it is worth paying such high prices to save only max 20 hours of delivery time, but agree that it will be freight that is offered first (at subsidised rates) until the safety has been proven. Initially delays in launches , poor schedules ie 1 a day, and the unreliability of the early craft will lose much of the margin in time of such a service, but for light weight items such as replacement computer parts there may be demand for such a service especially when there are several flights a day to each destination.Only when the safety level has been shown will commercial passengers be allowed to fly, but there are other passengers where safety is of less concern and speed is essential, such as military fast response , and emergency workers.I expect to see the first P2P flight within 10 years just to prove that it can be done. Once safety has been proven, if the cost is reasonable their is much potential for such a service.I disagree that 1st class passengers (those expecting high class service and food) are the market, as the flight time is so short and will never be classed as luxury because of the high G- loads and zero-G element of the flight. Even food and drink might not be sensible in such circumstances. It might still appeal to people who would have been 1st class passengers on planes, so the prices can still be kept high, as these people probably value their time highly.Aiming to cover the most distant mass routes first, makes sense. Many people dont like sitting on a plane for 20 hours and will gladly pay a high premium for a short (in time) flight and for the experience of space.Concorde only made relatively short flights where the time savings were not that great after all the time wasted getting to and from the airport and the hassles of customs and airports are allowed for. A flight from NY to Perth(Aus) or Hong Kong taking only 30 minutes would be of much greater benefit.There will still be many people who will want to simply experience a space flight, and this may be the cheapest way for them , also allowing them to visit distant places at the same time. I see this being a very large market, even if each person only makes one flight.P2P prices are a function of fuel cost, crew cost, amortized equioment cost, and MRO.BFS can fly with comparable-ish fuel, no crew, many times per day, and with yet unknown MRO costs.I don't think you can call it yet as far as the eventual service cost being higher than jetliners.-----ABCD: Always Be Counting Down
Quote from: GWH on 03/31/2018 11:15 pmI think the appeal of BFR for point to point will more likely come in the form of slower travel, not faster.The cruise ship industry in 2015 was $23.3B, people pay a huge amount of money to take a slow form of transportation for the sake of the experience. Offer people a luxury travel package, New York to Hong Kong via an 8 hour orbit or multi day trip and you offer people an unforgettable experience that justifies a higher, and slower travel time.Cruise ships end at their starting points. That's the whole point of a cruise ship as opposed to an ocean liner. Ocean liners died out.The equivalent of a cruise ship for BFR would be to go into orbit for a while, then come back to land where the flight took off. In other words, space tourism, not point-to-point.
I think the appeal of BFR for point to point will more likely come in the form of slower travel, not faster.The cruise ship industry in 2015 was $23.3B, people pay a huge amount of money to take a slow form of transportation for the sake of the experience. Offer people a luxury travel package, New York to Hong Kong via an 8 hour orbit or multi day trip and you offer people an unforgettable experience that justifies a higher, and slower travel time.
Would you pay $1,599 to use a beach cabana for a day? Royal Caribbean is betting that at least a few people will. The line has released a price list for its soon-to-be-revamped private island in The Bahamas, CocoCay, that shows new over-water cabanas will cost up to $1,599 in peak season.
I have asked the question here before and either did not see an answer or it never came...but I really doubt Musk has a clue why the B747 does nto have an LAS...why it nor the generations of air transport that have preceeded it DONT is simple. the complexity of such a system would ADD not subtract from the overall risk of flight. ... that is not true of rockets, and will likely not be for sometime. my guess is by the time my four year old is my age...they will probably be there...if of course a market develops which funds all this
the fly in all this is if the Skylon engine works...if that works the world changes
Quote from: TripleSeven on 08/06/2018 09:03 amthe fly in all this is if the Skylon engine works...if that works the world changesAssume your talking about a Sabre powered hypersonic aircraft rather than the Skylon SSTO vehicle? P2p should still be significantly faster overall. I don't see that hypersonic flight wipes out the business case for a business class-ish p2p ticket. I'm not really up on what's likely to leave the drawing board for hypersonic planes. Wouldn't they likely to be limited to 100 or so passengers? That'd make a cheap ticket price challenging. Ignoring the risks of exploding them, BRS should be able to take more passengers than that.
Assume your talking about a Sabre powered hypersonic aircraft rather than the Skylon SSTO vehicle? P2p should still be significantly faster overall. I don't see that hypersonic flight wipes out the business case for a business class-ish p2p ticket.
I'm not really up on what's likely to leave the drawing board for hypersonic planes. Wouldn't they likely to be limited to 100 or so passengers? That'd make a cheap ticket price challenging. Ignoring the risks of exploding them, BRS should be able to take more passengers than that.
It will probably be difficult to fit a SABRE powered hypersonic aircraft into existing airports; because of noise, runway length, conflicts with other aircraft on approach, etc.
My guess is that vertical take-off electric powered aircraft will dominate in about 20 years time.
They can fly higher than air-breathing engines allow, and noise mostly kept within airport bounds. All (!) that is needed is better batteries.
Quote from: TripleSeven on 08/05/2018 07:52 pmI have asked the question here before and either did not see an answer or it never came...but I really doubt Musk has a clue why the B747 does nto have an LAS...why it nor the generations of air transport that have preceeded it DONT is simple. the complexity of such a system would ADD not subtract from the overall risk of flight. ... that is not true of rockets, and will likely not be for sometime. my guess is by the time my four year old is my age...they will probably be there...if of course a market develops which funds all thisThis has been pointed out many times on this forum, and Musk is certainly well aware of it.Since an escape system for a orbital transport is necessarily much more complex and dangerous and heavy than one for a 747 (you would never see hypergolic propellants or large solid rockets on a 747 for that purpose!), I doubt that the time to such a tipping point in risk is nearly as far away as you think. It should follow shortly after a gas-and-go fully reusable orbital architecture is operational, and will within a couple of generations at most.This does not mean that orbital flight will be as safe as commercial aviation in that time period. It just means that the weight, complexity, and risk added by a LES will no longer work to improve the probability of LOC over the level afforded by focusing the same effort on systems redundancy.
and no plane/pp or anything is fast enough to outrun jet lag
Quote from: TripleSeven on 08/06/2018 06:49 pmand no plane/pp or anything is fast enough to outrun jet lagSure it is. As Gwynne Shotwell said, you can go to your destination, have a meeting and be back home for dinner. No jetlag problem.
Quote from: envy887 on 08/06/2018 02:17 pmQuote from: TripleSeven on 08/05/2018 07:52 pmI have asked the question here before and either did not see an answer or it never came...but I really doubt Musk has a clue why the B747 does nto have an LAS...why it nor the generations of air transport that have preceeded it DONT is simple. the complexity of such a system would ADD not subtract from the overall risk of flight. ... that is not true of rockets, and will likely not be for sometime. my guess is by the time my four year old is my age...they will probably be there...if of course a market develops which funds all thisThis has been pointed out many times on this forum, and Musk is certainly well aware of it.Since an escape system for a orbital transport is necessarily much more complex and dangerous and heavy than one for a 747 (you would never see hypergolic propellants or large solid rockets on a 747 for that purpose!), I doubt that the time to such a tipping point in risk is nearly as far away as you think. It should follow shortly after a gas-and-go fully reusable orbital architecture is operational, and will within a couple of generations at most.This does not mean that orbital flight will be as safe as commercial aviation in that time period. It just means that the weight, complexity, and risk added by a LES will no longer work to improve the probability of LOC over the level afforded by focusing the same effort on systems redundancy.I dont know that I agree with your conclusion in the second paragraph. the escape system for a 747 would be well another 747...a very complex taskthe third I am probably more in agreement withLAS are judgment calls. the shuttle did not have one, all the efforts made toward one, the space suits, the escape slide etc were in name only just useless. the commercial airlines lost many 377's and Constellations going to Hawaii and Europe...some just vanished...I think what once? twice? have the Russians used oneto me it says more about the rewards of human spaceflight than anything else...ie unlike commercial aviation, it is one accident away from stopping. no one ever said that about commercial read airline flying never. not even after Grand Canyon
Quote from: guckyfan on 08/06/2018 07:35 pmQuote from: TripleSeven on 08/06/2018 06:49 pmand no plane/pp or anything is fast enough to outrun jet lagSure it is. As Gwynne Shotwell said, you can go to your destination, have a meeting and be back home for dinner. No jetlag problem.That's one expensive meeting. Or alternatively a massive saving on hotels. I'd have thought it would help longer duration stays as well. I don't sleep well on flights. Getting 6 hours plus of that back in my own bed should help somewhat.
Quote from: TripleSeven on 08/06/2018 06:47 pmQuote from: envy887 on 08/06/2018 02:17 pmQuote from: TripleSeven on 08/05/2018 07:52 pmI have asked the question here before and either did not see an answer or it never came...but I really doubt Musk has a clue why the B747 does nto have an LAS...why it nor the generations of air transport that have preceeded it DONT is simple. the complexity of such a system would ADD not subtract from the overall risk of flight. ... that is not true of rockets, and will likely not be for sometime. my guess is by the time my four year old is my age...they will probably be there...if of course a market develops which funds all thisThis has been pointed out many times on this forum, and Musk is certainly well aware of it.Since an escape system for a orbital transport is necessarily much more complex and dangerous and heavy than one for a 747 (you would never see hypergolic propellants or large solid rockets on a 747 for that purpose!), I doubt that the time to such a tipping point in risk is nearly as far away as you think. It should follow shortly after a gas-and-go fully reusable orbital architecture is operational, and will within a couple of generations at most.This does not mean that orbital flight will be as safe as commercial aviation in that time period. It just means that the weight, complexity, and risk added by a LES will no longer work to improve the probability of LOC over the level afforded by focusing the same effort on systems redundancy.I dont know that I agree with your conclusion in the second paragraph. the escape system for a 747 would be well another 747...a very complex taskthe third I am probably more in agreement withLAS are judgment calls. the shuttle did not have one, all the efforts made toward one, the space suits, the escape slide etc were in name only just useless. the commercial airlines lost many 377's and Constellations going to Hawaii and Europe...some just vanished...I think what once? twice? have the Russians used oneto me it says more about the rewards of human spaceflight than anything else...ie unlike commercial aviation, it is one accident away from stopping. no one ever said that about commercial read airline flying never. not even after Grand CanyonI don't think HSF is one accident away from stopping. It didn't stop for any of the many previous accidents.https://en.wikipedia.org/wiki/List_of_spaceflight-related_accidents_and_incidents
Quote from: envy887 on 08/06/2018 07:52 pmQuote from: TripleSeven on 08/06/2018 06:47 pmQuote from: envy887 on 08/06/2018 02:17 pmQuote from: TripleSeven on 08/05/2018 07:52 pmI have asked the question here before and either did not see an answer or it never came...but I really doubt Musk has a clue why the B747 does nto have an LAS...why it nor the generations of air transport that have preceeded it DONT is simple. the complexity of such a system would ADD not subtract from the overall risk of flight. ... that is not true of rockets, and will likely not be for sometime. my guess is by the time my four year old is my age...they will probably be there...if of course a market develops which funds all thisThis has been pointed out many times on this forum, and Musk is certainly well aware of it.Since an escape system for a orbital transport is necessarily much more complex and dangerous and heavy than one for a 747 (you would never see hypergolic propellants or large solid rockets on a 747 for that purpose!), I doubt that the time to such a tipping point in risk is nearly as far away as you think. It should follow shortly after a gas-and-go fully reusable orbital architecture is operational, and will within a couple of generations at most.This does not mean that orbital flight will be as safe as commercial aviation in that time period. It just means that the weight, complexity, and risk added by a LES will no longer work to improve the probability of LOC over the level afforded by focusing the same effort on systems redundancy.I dont know that I agree with your conclusion in the second paragraph. the escape system for a 747 would be well another 747...a very complex taskthe third I am probably more in agreement withLAS are judgment calls. the shuttle did not have one, all the efforts made toward one, the space suits, the escape slide etc were in name only just useless. the commercial airlines lost many 377's and Constellations going to Hawaii and Europe...some just vanished...I think what once? twice? have the Russians used oneto me it says more about the rewards of human spaceflight than anything else...ie unlike commercial aviation, it is one accident away from stopping. no one ever said that about commercial read airline flying never. not even after Grand CanyonI don't think HSF is one accident away from stopping. It didn't stop for any of the many previous accidents.https://en.wikipedia.org/wiki/List_of_spaceflight-related_accidents_and_incidentswell the shuttle essentially stopped after two accidents...or really 1 a long time ago and 1 a bunch of years latterit stopped with no replacement in sight and has kind of stopped in the US...with nothing that humans do that exceeds the value of them being in space...we are not that many "events" right now away from stoppingI am kind of familiar with the debates that went on after the loss of Columbia in the administration...no one really was enthusiastic about restarting.