Solid-liquid separating system and solid-liquid separating method

The invention claimed is: 1. A solid-liquid separating system in which, from a processing object containing water, oil, and solid, the oil is separated and collected from the processing object by use of a material A that is gaseous at normal temperature and normal pressure and when liquefied, can dissolve the oil and does not dissolve water, the solid-liquid separating system comprising: a processing tank that houses the processing object; a first heat exchanger that gasifies the material A contained in a mixture of the material A and the oil; a second heat exchanger that liquefies the material A that has been gasified in the first heat exchanger; a material A supplying means that supplies the material A that has been liquefied from the second heat exchanger to the first heat exchanger through the processing tank; a collecting tank that is connected to the first heat exchanger via a second pipe and a valve; a closed system configuration including the first heat exchanger, the second heat exchanger, a compressor, and an expansion valve; and a material B that circulates in the closed system, such that the material B is in a liquefied state from the first heat exchanger to the expansion valve, is in a two-phase state from the expansion valve to the second heat exchanger and is in a gaseous state from the second heat exchanger to the first heat exchanger, wherein the first heat exchanger condenses the material B which is compressed with the compressor and exchanges heat of condensation of the material B for heat of evaporation of the material A, the expansion valve reduces pressure of the material B that has been condensed, the second heat exchanger exchanges heat of evaporation of the material B for heat of condensation of the material A, the material A that has been gasified while being separated from the oil in the first heat exchanger is liquefied in the second heat exchanger, and the material A that has been liquefied is supplied to the processing tank by the material A supplying means, and by stopping the supply of the material A by the material A supplying means and continuing the circulation of the material B, the oil is collected from the first heat exchanger to the collecting tank. 2. The solid-liquid separating system according to claim 1 , wherein water solubility in the material A that has been liquefied is 1 g/L or less at 20° C. 3. The solid-liquid separating system according to claim 1 , wherein the material A has a boiling point of −100° C. or more and 10° C. or less. 4. The solid-liquid separating system according to claim 1 , wherein the material A has a saturated vapor pressure of 2 MPa or less at normal temperature. 5. The solid-liquid separating system according to claim 1 , wherein the material A contains at least one of propane, normal butane, isobutane, and neopentane as a main component. 6. The solid-liquid separating system according to claim 1 , wherein the second heat exchanger, the processing tank, and the first heat exchanger are provided at positions that decrease in height in this order. 7. The solid-liquid separating system according to claim 1 , further comprising: a pipe that connects between the first heat exchanger and the processing tank and supplies the material A that has been gasified in the first heat exchanger to the processing tank; and an accumulator connected to the pipe between the processing tank and the first heat exchanger, wherein the material A that has been liquefied in the processing tank is discharged and collected in the accumulator by the material A that has been gasified and supplied from the first heat exchanger to the processing tank through the pipe. 8. The solid-liquid separating system according to claim 7 , further comprising a second compressor connected to the pipe that connects between the first heat exchanger and the processing tank. 9. The solid-liquid separating system according to claim 1 , further comprising: a heater connected to a pipe between the second heat exchanger and the processing tank; and an accumulator connected to a pipe between the processing tank and the first heat exchanger, wherein the material A that has been gasified by the heater in the pipe provided with the heater is supplied to the processing tank, and the material A that has been liquefied in the processing tank is discharged and collected in the accumulator. 10. The solid-liquid separating system according to claim 1 , further comprising: a first accumulator connected to a pipe between the second heat exchanger and the processing tank; a heater connected to the first accumulator; and a second accumulator connected to a pipe between the processing tank and the first heat exchanger, wherein the material A that has been liquefied is supplied from the second heat exchanger to the first accumulator, the material A that has been liquefied and housed in the first accumulator is gasified by the heater, the material A that has been gasified is supplied to the processing tank, and the material A that has been liquefied in the processing tank is discharged and collected in the second accumulator. 11. The solid-liquid separating system according to claim 1 , further comprising: a heater connected to the processing tank; and an accumulator connected to a pipe between the processing tank and the first heat exchanger, wherein the material A that has been liquefied in the processing tank is gasified by the heater, the material A that has been gasified is supplied to the processing tank, and the material A that has been liquefied in the processing tank is discharged and collected in the accumulator. 12. A solid-liquid separating method in which, from a processing object containing water, oil, and solid, the oil is separated and collected from the processing object by use of a material A that is gaseous at normal temperature and normal pressure and when liquefied, can dissolve the oil and does not dissolve water, the method comprising: a step of supplying the material A to the processing object in a liquid state so as to obtain a mixture in which the oil is dissolved in the material A; a step of gasifying, via a first heat exchanger, the material A contained in the mixture by heating the mixture so as to separate the oil from the material A and collect the oil; a step of cooling, via a second heat exchanger connected via a pipe to the first heat exchanger, the material A that has been gasified so as to liquefy the material A, and supplying the material A that has been liquefied to the processing object again; and a step of stopping the supply of the material A and collecting, via a collecting tank that is connected to the first heat exchanger via a second pipe and a valve, the oil, wherein the material A is gasified and liquefied while exchanging heat with a material B, the material B repeats a process of compression, condensation, expansion, and evaporation in a closed system. 13. A solid-liquid separating system in which, from a processing object containing liquid and solid, the liquid is separated and collected from the processing object by use of a material A that is gaseous at normal temperature and normal pressure and when liquefied, can dissolve the liquid, the solid-liquid separating system comprising: a processing tank that houses the processing object; a first heat exchanger that gasifies the material A contained in a mixture of the material A and the liquid; a second heat exchanger that liquefies the material A that has been gasified in the first heat exchanger; a material A supplying means that supplies the material A that has been liquefied from the second heat exchanger to the