How much air goes from the tire to the pump when you plug it on the valve?
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How much air goes from the tire to the pump when you plug it on the valve?
I am trying to figure out how much air my tires lose between rides by using my floor pump's pressure gauge. I was always told it could be between 0 to 20PSI, but I have never verified.
The thing is that there is a loss of pressure inside the tire as soon as I connect the head on the valve (physics ) so the reading is not accurate. I am trying to figure out how much pressure is lost during the connection. Google wasn't helpful. Just in case, I know I can buy a gauge to read the pressure directly at the valve.
Has anyone ever wondered / found the answer or am I the only bored cyclist in the world who has time to think about these things? I know it will vary based on the length of the pump's air hose and surely a few other factors, but there should be a known average, right?
The thing is that there is a loss of pressure inside the tire as soon as I connect the head on the valve (physics ) so the reading is not accurate. I am trying to figure out how much pressure is lost during the connection. Google wasn't helpful. Just in case, I know I can buy a gauge to read the pressure directly at the valve.
Has anyone ever wondered / found the answer or am I the only bored cyclist in the world who has time to think about these things? I know it will vary based on the length of the pump's air hose and surely a few other factors, but there should be a known average, right?
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A $15 Meiser air pressure gauge lets just a smidgeon of air out (or maybe a micro-smidgeon) when you use it and gives decent accuracy.
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If you don't check the pressure, but just check by squeezing the tire, does the tire lose pressure over time?
I would just check the pressure loss over a longer time. For example, how much pressure does your tire lose over 2 months? Then divide it by the number of days.
I would just check the pressure loss over a longer time. For example, how much pressure does your tire lose over 2 months? Then divide it by the number of days.
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No one cares. It can be measured, based on the tire’s known volume and pressure using the common gas law and the size (length, internal diameter) of the hose, plus a variable for how sloppily the OP applied the pump head to the valve and botched that process, leading to excessive and unnecessary losses, plus a fudge factor of 3*(z-W/kg) as related to hydraulic vs mechanical disc brakes and sock height. This time chain lube has no effect whatsoever. Just this once. But, you *MUST* know the EXACT starting pressure inside the tire BEFORE beginning this measurement or the whole thing is off.
Last edited by AdkMtnMonster; 04-18-21 at 04:37 PM. Reason: Equation error correction
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I lose 0 psi from the tube when I connect my pump. 1st stroke of the pump shows the cracking pressure when the valve to the tube opens. With ultra thin butyl tubes I consistently lose about 10 psi overnight.
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It's probably different every time you put the pump head on the valve. I'll bet you never do it exactly the same twice. Does it matter? Not a bit. Are you overthinking this? Definitely.
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Why don't you just measure the pressure 10 times in a row and see how much the readings drop?
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I bought an air gauge, at your advice. I asked it what kinds of questions I'm supposed to be asking, no reply. This is worse than when you sold me those magic beans. 😡
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Relatively easy calculation using ideal gas law. P1*V1 = P2*V2, where P1 is your tire pressure and V1 is your tire volume, V2 is your combined volume of tire plus gage, and solve for P2. Don't worry about the units as long as you are consistent on both sides of the equation.
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I am trying to figure out how much air my tires lose between rides by using my floor pump's pressure gauge. I was always told it could be between 0 to 20PSI, but I have never verified.
The thing is that there is a loss of pressure inside the tire as soon as I connect the head on the valve (physics ) so the reading is not accurate. I am trying to figure out how much pressure is lost during the connection. Google wasn't helpful. Just in case, I know I can buy a gauge to read the pressure directly at the valve.
Has anyone ever wondered / found the answer or am I the only bored cyclist in the world who has time to think about these things? I know it will vary based on the length of the pump's air hose and surely a few other factors, but there should be a known average, right?
The thing is that there is a loss of pressure inside the tire as soon as I connect the head on the valve (physics ) so the reading is not accurate. I am trying to figure out how much pressure is lost during the connection. Google wasn't helpful. Just in case, I know I can buy a gauge to read the pressure directly at the valve.
Has anyone ever wondered / found the answer or am I the only bored cyclist in the world who has time to think about these things? I know it will vary based on the length of the pump's air hose and surely a few other factors, but there should be a known average, right?
It’s not an interesting topic.
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I was just wondering since when people started to give their two cents instead of trying to answer the damn question.
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If a presta valve is used, the answer is none. When a tire is inflated, the presta valve seals as soon as you stop pumping. The only way to lower the pressure in the tire is to disconnect the pump head and push on the top nut with your finger. The pump head should never contact the top nut with rubber seal at the end. I've forgotten to tighten the nut at the top and ridden 50 miles with no pressure loss. You'll also find that after the nut is loosened, the seal needs to be broken by pushing on the nut to let a little air out. If that's not done, it can take a huge pressure to break the seal.
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If a presta valve is used, the answer is none. When a tire is inflated, the presta valve seals as soon as you stop pumping. The only way to lower the pressure in the tire is to disconnect the pump head and push on the top nut with your finger. The pump head should never contact the top nut with rubber seal at the end. I've forgotten to tighten the nut at the top and ridden 50 miles with no pressure loss. You'll also find that after the nut is loosened, the seal needs to be broken by pushing on the nut to let a little air out. If that's not done, it can take a huge pressure to break the seal.
If you are referring to the air loss when disconnecting the pump's head after inflating the tire, then yes, I'd say there is no loss of pressure (or barely) since the valve closes quickly due to the internal pressure being high.
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If a presta valve is used, the answer is none. When a tire is inflated, the presta valve seals as soon as you stop pumping. The only way to lower the pressure in the tire is to disconnect the pump head and push on the top nut with your finger. The pump head should never contact the top nut with rubber seal at the end. I've forgotten to tighten the nut at the top and ridden 50 miles with no pressure loss. You'll also find that after the nut is loosened, the seal needs to be broken by pushing on the nut to let a little air out. If that's not done, it can take a huge pressure to break the seal.
I am not sure to fully get what you are saying. As soon as you plug the pump's head on the valve, there is a loss of pressure inside the tire (air leaving the tire and going into the pump's hose), it's physics. When you connect the pump on the valve, it opens the ''circuit'' and the valve stays open until it's disconnected.
If you are referring to the air loss when disconnecting the pump's head after inflating the tire, then yes, I'd say there is no loss of pressure (or barely) since the valve closes quickly due to the internal pressure being high.
If you are referring to the air loss when disconnecting the pump's head after inflating the tire, then yes, I'd say there is no loss of pressure (or barely) since the valve closes quickly due to the internal pressure being high.
Obviously the OP has the first type.
How much air is lost in this operation will depend on the pump's air chamber and hose volume and will depend not only on the pump but also on the size/volume of the tire.
It's not worth worrying about the details.
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So I woke up this morning with my head a little more rested than yesterday (gotta love Satur-Wine-Days!) and I figured out that I could simply pump the tire up to X pressure, disconnect it and subtract the new reading to get an approximate air loss.
At 70psi, I reconnected it and got 55psi. Air loss is more or less 15psi.
At 70psi, I reconnected it and got 55psi. Air loss is more or less 15psi.
Last edited by eduskator; 04-19-21 at 08:46 AM.
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Assuming the pump is at the bottom of it's stroke, then you are just filling the hose, so look at the inside diameter of the hose and the length and figure out the volume. Once you figured out the total volume, you compare that to the volume of the tire/tube and figure out how much the pressure would change based on the adding the additional volume. I suspect it is minimal.
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As to your other point, I don't know how much difference there would be, maybe very little but I would have to assume at least a little higher in the tire/tube to force the valve closed. This is assuming you subscribe to the theory that the pump head does not depress the valve. If you've ever heard a lot of air escaping as you have a tough time removing the pump head then you know the valve is being depressed, at least in that instance.
As with the original question, all of this is actually moot.
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It doesn't what, read the pressure in the tire? He said the valve closed as soon as you stopped pumping, therefore you couldn't get a reading until you applied pressure to open the valve.
As to your other point, I don't know how much difference there would be, maybe very little but I would have to assume at least a little higher in the tire/tube to force the valve closed. This is assuming you subscribe to the theory that the pump head does not depress the valve. If you've ever heard a lot of air escaping as you have a tough time removing the pump head then you know the valve is being depressed, at least in that instance.
As with the original question, all of this is actually moot.
As to your other point, I don't know how much difference there would be, maybe very little but I would have to assume at least a little higher in the tire/tube to force the valve closed. This is assuming you subscribe to the theory that the pump head does not depress the valve. If you've ever heard a lot of air escaping as you have a tough time removing the pump head then you know the valve is being depressed, at least in that instance.
As with the original question, all of this is actually moot.
Last edited by cxwrench; 04-19-21 at 10:46 AM.
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Wrong. As someone else ( DaveSSS ) posted earlier as soon as you stop pumping the pressure in the tube forces the valve closed. You don't lose any pressure from a presta valve when removing the pump head. The air you hear is coming from the pump, not the tube. It's no 'theory'...the pump head doesn't depress the valve, air pressure from the pump does. You continue to get a pressure reading when you stop pumping because there is still positive pressure in the pump/hose. Oddly enough it's the same as what the pressure is in the tube.
Sometimes when trying to remove the pump head after inflating the tire if it's in an awkward position and I twist it around air will escape from the tire. Sure, if it is removed straight off the only air released is from the hose but if you fumble around with it the tire will lose air.