The boiling point of water at 100 psi is 328 degrees Fahrenheit. This converts to a value of 164 degrees Celsius.
The boiling point of liquids depends on the pressure; the relation is of inverse proportionality.
For calculation see the link below.
The boiling point of water at 16psi is 102 oC or 216 oC. (Engineering Tool Box)
The boiling point of water at 100psi is 164 degrees Celsius.
about 110oC - 120oC
252 deg F at 16 psig (psi is not clear)
247,18 Kelvin
NO!!!! It depends on the gas pressure above the water's surface. The fact that it is given at 100 oC is for STP. If you try to boil water at the top of Mount Everest (29,000 ft) you will find it boils at a much lower temperature.
100 + psi
Water does not boil at STP. STP stands for standard temperature and pressure. You've got to either increase the temperature or decrease the pressure. Most likely you want to know what the boiling point of water is at standard pressure. This is complicated somewhat by the fact that STP is not as simple as it used to be and is now defined by IUPAC as 100 kPa but by NIST as 1 ATM (101.325 kPa). Using NIST standard pressure, the boiling point of water is 373.15 K; using IUPAC's value, it's 372.78 K (approximately... I couldn't find exactly 100 kPa in my vapor pressure tables, so I had to interpolate a little; that last digit may be off slightly). Somewhat less likely is that you want to know what pressure is required to make water boil at standard temperature. Again, two competing standards; IUPAC's is 273.15 K and NIST's is 293.15 K. IUPAC's value leads to a pressure of 4.579 Torr, which is 0.610 kPa; NIST's value yields a pressure of 17.535 Torr or 2.34 kPa. All values are straight from vapor pressure tables in the CRC Handbook of Chemistry and Physics (60th Ed.) modulo a units conversion, except for the one for IUPAC standard pressure which I had to interpolate as noted above.
101.3 kPa=100 Pascals 101.3 kPa=1.00atm=760 mmHg=25.4 in Hg=14.7psi=100 Pa
See the Related Questions for the boiling point of water at a variety of pressures.
134
247,18 Kelvin
the boiling point of the water will raise 3 deg. frht. for every pound of pressure the cap is rated for. a 10lb. cap will raise the boiling temp to 242deg. frht.
The temperature inside can be higher than the boiling point of water due to pressure; it is all relative. For instance at sea level water boils at 100 C / 212 F; but on top of Mount Everest it boils at 69C / 156 F. An autoclave runs at 30~35 PSI which translates to water boiling at 135C / 280F to 160C / 320F. The higher the pressure the higher the temperature.
about 5 degabout 5 deg
Critical point is the state of water at which no latent heat is required to convert water into superheated steam. Above this point water directly converted into superheated steam. theoretically critical point of water is 221.4 bar and 374.2 deg C .
Water at ambient atmospheric pressure boils at 100C. One way of raising the boiling point is to raise the surrounding pressure. If you raise the pressure surrounding the water to about 93 psi above atmospheric, it will boil at about 170C. Do not try this at home! Boiling water at this pressure is extremely dangerous and can severely burn you.
what is the melting point of spessartite garnets under normal atmospheric pressure, and what would be the melting point and the fusion point of spessartite under 2000 psi.
the weight of the water above. water in a 1" pipe 100' tall is 43 psi @ base of pipe. water in a 50' tank 100' tall is 43 psi @ base of tank. h x .434 = psi
32oF
Although we usually see water boiling at close to 760 mm Hg (14.7 psi) and 100oC it will boil at almost any appropriate combination of temperature and pressure up to the critical point of water at 373,94oC and 22,060 kPa.