whats a good a/r
#11
Re:whats a good a/r
Originally Posted by shortyz
The beam power of the Proton Driver is a factor of twenty higher than that of the
present Booster. It can be employed for the production of high-intensity secondary
particle beams of pions, kaons, neutrons and neutrinos. In the long term, the Proton
Driver can serve a neutrino factory and a muon collider by generating intense short muon
bunches from a target.
present Booster. It can be employed for the production of high-intensity secondary
particle beams of pions, kaons, neutrons and neutrinos. In the long term, the Proton
Driver can serve a neutrino factory and a muon collider by generating intense short muon
bunches from a target.
Proven here..
#14
Re:whats a good a/r
Originally Posted by shortyz
we show a comparison of the Higgs factory µ+ µ - collider and an e+ e- collider (NLC) that could also
study the Higgs [5]. Note the very great differences in cross sections, indicating that the e+ e- collider must have very high
luminosity. There is also a possibility to search for CP violation in the Higgs sector as we discussed at a recent UCLA
The Proton Driver is a rapid-cycling (15 Hz), high-intensity (3 ´ 1013 protons per
pulse), 1 MW 16-GeV synchrotron. It serves a number of purposes in the Fermilab
hadron program. In the near term, it replaces the present Booster and increases the proton
beam intensity in the Main Injector by a factor of four, thereby providing an upgrade path
for NuMI and other 120 GeV fixed target programs. It also opens the avenue for new
physics programs based on its stand-alone capabilities as a source of intense proton
beams. The beam power of the Proton Driver is a factor of twenty higher than that of the
present Booster. It can be employed for the production of high-intensity secondary
particle beams of pions, kaons, neutrons and neutrinos. In the long term, the Proton
Driver can serve a neutrino factory and a muon collider by generating intense short muon
bunches from a target. The design also allows an upgrade path to a 4 MW proton source
by adding a 600 MeV linac and a 3 GeV Pre-Booster at some late time (called Phase II).
To meet the requirement of a muon collider, such as a Higgs factory, the number of
bunches in Phase II will be reduced to four.
study the Higgs [5]. Note the very great differences in cross sections, indicating that the e+ e- collider must have very high
luminosity. There is also a possibility to search for CP violation in the Higgs sector as we discussed at a recent UCLA
The Proton Driver is a rapid-cycling (15 Hz), high-intensity (3 ´ 1013 protons per
pulse), 1 MW 16-GeV synchrotron. It serves a number of purposes in the Fermilab
hadron program. In the near term, it replaces the present Booster and increases the proton
beam intensity in the Main Injector by a factor of four, thereby providing an upgrade path
for NuMI and other 120 GeV fixed target programs. It also opens the avenue for new
physics programs based on its stand-alone capabilities as a source of intense proton
beams. The beam power of the Proton Driver is a factor of twenty higher than that of the
present Booster. It can be employed for the production of high-intensity secondary
particle beams of pions, kaons, neutrons and neutrinos. In the long term, the Proton
Driver can serve a neutrino factory and a muon collider by generating intense short muon
bunches from a target. The design also allows an upgrade path to a 4 MW proton source
by adding a 600 MeV linac and a 3 GeV Pre-Booster at some late time (called Phase II).
To meet the requirement of a muon collider, such as a Higgs factory, the number of
bunches in Phase II will be reduced to four.
#15
Re:whats a good a/r
OMG I just laughed my *** off. Thanks for the laugh guys.
Sean, I don't know what to say to you. Come back to earth man. We miss you. :P
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Sean, I don't know what to say to you. Come back to earth man. We miss you. :P
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#16
Re:whats a good a/r
Originally Posted by Dr.Boost
OMG I just laughed my *** off. Thanks for the laugh guys.
Sean, I don't know what to say to you. Come back to earth man. We miss you. :P
Sean, I don't know what to say to you. Come back to earth man. We miss you. :P
#17
Re:whats a good a/r
lol its not that man. this is home made turbo. this isnt ------- pgmfi.
put any turbo on, ghetto it up. away ya go. 90% people on here dont gib a ---- about numbers that associate with the turbo and how it performs. they arent looking to calculate the proper trims and a/r's for a drag racer.
put any turbo on, ghetto it up. away ya go. 90% people on here dont gib a ---- about numbers that associate with the turbo and how it performs. they arent looking to calculate the proper trims and a/r's for a drag racer.
#18
Re:whats a good a/r
Originally Posted by shortyz
lol its not that man. this is home made turbo. this isnt ------- pgmfi.
put any turbo on, ghetto it up. away ya go. 90% people on here dont gib a ---- about numbers that associate with the turbo and how it performs. they arent looking to calculate the proper trims and a/r's for a drag racer.
put any turbo on, ghetto it up. away ya go. 90% people on here dont gib a ---- about numbers that associate with the turbo and how it performs. they arent looking to calculate the proper trims and a/r's for a drag racer.
personally, I advise you to learn to decipher compressor maps and find a compressor trim and a/r that suit your purpose. It is generally pretty easy from that point to find a turbo that fits those specs, altho you might end up spending more if you are in a hurry. But at least you have something to aim at, based on solid data rather than just taking a shot in the dark. As for the turbine stages, I'm not sure I understand what that is about. I've seen "stage 1, stage 2, stage 3, etc", but those numbers mean nothing to me... I just got a super 60, cause it looked good when I plotted it.
#19
Re:whats a good a/r
thanks for the reply
its cool bro thanks for ur advice. its really apprecated. i just want to make sure i do my first project the right way and not half fast nothing and have it ---- up on me later. so far i went from a:
rhb5 to a t3
fmu to afc
so yes i want to do it right but still keep it cheap
dont get all shitty. you asked a question i gave an answer. had your question been what size turbo should i run then i could have given a more specific answer. but in all honesty without a hp target then its hard to say wtf you should use.
rhb5 to a t3
fmu to afc
so yes i want to do it right but still keep it cheap
#20
Re:whats a good a/r
I'm looking for that kind of info. That is why I learned to read compressor maps. I got some info on this site that helped. Glad someone is nice enough to write that stuff up instead of just saying "put any turbo on, ghetto it up"... The person asked a question that makes it seem like he is somewhat interested in his performance, so I'd say he isn't in the 90% - and for those who are, they probably didn't read this thread. So far, I've only seen one constructive response.
personally, I advise you to learn to decipher compressor maps and find a compressor trim and a/r that suit your purpose. It is generally pretty easy from that point to find a turbo that fits those specs, altho you might end up spending more if you are in a hurry. But at least you have something to aim at, based on solid data rather than just taking a shot in the dark. As for the turbine stages, I'm not sure I understand what that is about. I've seen "stage 1, stage 2, stage 3, etc", but those numbers mean nothing to me... I just got a super 60, cause it looked good when I plotted it.
well its best to think of turbine wheel stages like so.
with compressor wheels there are 40 trim etc. well
stage 1 is 48mm stage 2 is 52mm stage 3 is 58 mm so on and so forth.
A/R have to do with the radious of the turbine / the area of the housing.
so thats wher A/R comes from.
other then that is prety striaght forward. problem is that there isnt much hotside info and the reson is becuase the bulk of the companys out there have little to no idea how to utilize the info.
personally, I advise you to learn to decipher compressor maps and find a compressor trim and a/r that suit your purpose. It is generally pretty easy from that point to find a turbo that fits those specs, altho you might end up spending more if you are in a hurry. But at least you have something to aim at, based on solid data rather than just taking a shot in the dark. As for the turbine stages, I'm not sure I understand what that is about. I've seen "stage 1, stage 2, stage 3, etc", but those numbers mean nothing to me... I just got a super 60, cause it looked good when I plotted it.
well its best to think of turbine wheel stages like so.
with compressor wheels there are 40 trim etc. well
stage 1 is 48mm stage 2 is 52mm stage 3 is 58 mm so on and so forth.
A/R have to do with the radious of the turbine / the area of the housing.
so thats wher A/R comes from.
other then that is prety striaght forward. problem is that there isnt much hotside info and the reson is becuase the bulk of the companys out there have little to no idea how to utilize the info.
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