Can anyone tell me the size of these fittings from the Begi kit?
#1
Can anyone tell me the size of these fittings from the Begi kit?
I'm thinking I will go ahead and upgrade the rubber lines that came in the Begi kit with either hardlines or stainless braided...I want to use as many of the fittings that came with the Begi kit that I already have, but I'm not sure what sizes they are. I've attached some pics below-I just need to know the size of the side that would go to line (so I don't need to know the size inserted into either the block or turbo itself). Thanks!
Also, I'm thinking of doing hardline for all the lines (bending and flaring myself)-probably aluminum/maybe stainless but I'm correct that the proper OD tubing can be used with a sleeve and nut to fit to these? I'm thinking these are -AN fittings/37 degree flare, correct? I appreciate any help!
I want to do something similar to what this guy did:
https://www.miataturbo.net/forum/t31579/#post369661
Also, anyone know if the Garrett GT2560R turbo that comes in the Begi kit has a built in oil restrictor?
Also, I'm thinking of doing hardline for all the lines (bending and flaring myself)-probably aluminum/maybe stainless but I'm correct that the proper OD tubing can be used with a sleeve and nut to fit to these? I'm thinking these are -AN fittings/37 degree flare, correct? I appreciate any help!
I want to do something similar to what this guy did:
https://www.miataturbo.net/forum/t31579/#post369661
Also, anyone know if the Garrett GT2560R turbo that comes in the Begi kit has a built in oil restrictor?
Last edited by scottv; 03-29-2009 at 11:50 PM.
#5
Ball-bearing turbochargers can benefit from the addition of an oil restrictor, as most
engines deliver more pressure than a ball bearing turbo requires. The benefit is seen in
improved boost response due to less windage of oil in the bearing. In addition, lower oil
flow further reduces the risk of oil leakage compared to journal-bearing turbochargers. Oil
pressure entering a ball-bearing turbocharger needs to be between 40 psi and 45 psi at the
maximum engine operating speed. For many common passenger vehicle engines, this generally
translates into a restrictor with a minimum of 0.040" diameter orifice upstream of the oil
inlet on the turbocharger center section. Again, it is imperative that the restrictor be
sized according to the oil pressure characteristics of the engine to which the turbo is
attached. Always verify that the appropriate oil pressure is reaching the turbo.
The use of an oil restrictor can (but not always) help ensure that you have the proper oil
flow/pressure entering the turbocharger, as well as extract the maximum performance.
engines deliver more pressure than a ball bearing turbo requires. The benefit is seen in
improved boost response due to less windage of oil in the bearing. In addition, lower oil
flow further reduces the risk of oil leakage compared to journal-bearing turbochargers. Oil
pressure entering a ball-bearing turbocharger needs to be between 40 psi and 45 psi at the
maximum engine operating speed. For many common passenger vehicle engines, this generally
translates into a restrictor with a minimum of 0.040" diameter orifice upstream of the oil
inlet on the turbocharger center section. Again, it is imperative that the restrictor be
sized according to the oil pressure characteristics of the engine to which the turbo is
attached. Always verify that the appropriate oil pressure is reaching the turbo.
The use of an oil restrictor can (but not always) help ensure that you have the proper oil
flow/pressure entering the turbocharger, as well as extract the maximum performance.
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