A gas doesn't have a definite shape or volume iits molecules are very loose
A liquid doesn't have a definite shape, but it does have a definite volume.
A solid has both a definite shape and volume.
molecules in solid are closely bound together.
molecules in liquid are closely bound but not so closely as compared to solid
molecules in gas are spread far away from each other.
solids cannot be easily compressed.
liquids and gases are easily compressible.
solids have fixed shape.
liquids and gases have the shape of the container.
They are essentially on opposite ends of the state of matter spectrum. Plasma is a super heated gas and Bose-Einstein condensates are super cooled (nearly 0oK) particles.
Unless any extra particles/sediments collected on the water particles(gas), they do not differ. Condensate is just when water particles(gas), have collected on an object after evaporation, and this process runs all on water. One example is when after you take a shower, the steam, (water particles/gas), collects on a mirror and drizzles down the mirror. This ends up being water!!!
The unit of liquid condensate is typically measured in barrels (bbl) or gallons (gal). These units are commonly used to quantify the volume of liquid condensate produced or processed in the oil and gas industry.
A is expanded in a container.
To liquify a gas, it must be cooled below its critical temperature while maintaining a pressure above its critical pressure. This causes the gas to condense into a liquid state, where the intermolecular forces are strong enough to overcome the kinetic energy of the particles. This process is typically achieved through compression and cooling in a refrigeration system.
The gas condensate is acidic. The acidity in the gas corrodes, therefore, forming sulphurised condensate droplets. Heating desulphurised the gas condensate.
If you are asking how much pressure you would have to compress methane to in order to liquify it at room temperature, the answer is that methane won't liquify at room temperature. The critical temperature for methane is -87.2 degrees centigrade. Above that temperature it will not liquify no matter how much pressure you apply. At -82.7 degrees centigrade it would take a pressure of 45.96 bar to get it to liquify. See: http://www.chem.purdue.edu/gchelp/liquids/critical.html
Veq = 133000*(Condensate specific gr/Mol wt of condensate) in SCF/STB Where, Mol wt of condensate = 6084/(API-5.9)
yes
They are essentially on opposite ends of the state of matter spectrum. Plasma is a super heated gas and Bose-Einstein condensates are super cooled (nearly 0oK) particles.
Condensate yield refers to the amount of liquid (condensate) produced from natural gas or oil during processing and separation. It is commonly expressed as the volume or percentage of condensate recovered from the raw natural gas or oil. Achieving a high condensate yield is important for maximizing the value of the produced hydrocarbons.
It must. You have to take heat out of the gas in order to liquify it.
condensate
Condensate production divided by (hydrocarbon) gas production. Conventional units stb/MMscf.
CGR, or Condensate Gas ratio, is the ratio of condensate liquid volume divided by dry gas volume. The field unit is bbl/MMscf. The inverse of CGR is GOR (Gas Oil ratio), although solution GOR is the amount of gas dissolved in 1 bbl of oil, while CGR is an indicator of how much condensate will drop out of 1 MMscf of gas.
A bose-einstein condensate.
At 90 barg pressure, the freezing point of gas condensate is typically lower than at atmospheric pressure. The exact freezing point can vary depending on the composition of the gas condensate. It is advisable to consult the specific properties of the gas condensate mixture to determine its freezing point accurately at 90 barg pressure.