TH117464A - Process of liquefied natural gas and hydrocarbon gas - Google Patents

Claims (4)

Disclaimer (all) which will not appear on the advertisement page: Edit 07/04/2016 1. The process for the separation of liquefied natural gas containing methane, C2 component, and heavy hydrocarbon component and gas stream containing methane, C2 component, and heavy hydrocarbon component to the volatile red resin gas component. With the main part of The methane and the C2 constituents and the relatively less volatile liquid part. Containing the main component of such heavy hydrocarbon components which (a) such liquefied natural gas is sufficiently heated to vaporize, thereby forming a vapor stream; (b) The vapor is expanded to a lower pressure and afterwards is supplied. To the distillation tower at the feed position of the first center column; (c) The gas stream is extended to a lower pressure, cooled, and then supplied to the distillation tower at the feed position of the second central column. ; (d) The vapor from the distillation is drawn from the area of the distillation tower below the current. The expanded vapor and the said cooled gas stream, then the vapor from the The distillation is sufficiently cooled to at least partially condense it. This produces a condensed current and a current containing any residual vapor, by supplying it to the The least That part of the heating of such liquefied natural gas; (e) At the very least Part of the condensed current is supplied to The distillation tower as a reflux current at the feed position of the upper column; (f) Upper vapor is drawn from the top of the tower and is divided. To the least The first and second segments, then the second section are squeezed. Compressed to a higher pressure; (g) Such compressed second-order fraction is sufficiently cooled to condense it. At least partially And by that way it produces volatile liquid flows, delivering a Cool down to the very least That part of the heating of such liquefied natural gas; (h) Such volatile liquid flows are sufficiently heated to vaporize, delivering such heat to a minimum. That part of the cooling of the gas stream That was expanded therein; (i) the first such element is heated, delivering such heat to at least part of the cooling thereof of the distillation vapor stream; (j) Any residual vapor stream And that hot first sequence was combined to cause IResidus stream And the iResidus stream will be heated The heat is delivered to at least part of the cooling of the amplified gas current (k), after which the hot vapor condensate is condensed with the current. Liquid which The volatile gas that is vapor to form part of the said volatile resin gas that contains the main part of methane. Thereof and C2 components thereof; And (l) the amount and temperature of the said reflux current and the temperature of the said feed. It is effective to maintain the upper temperature of the distillation chamber at that temperature. By that way, the main part of the heavy hydrocarbon component is returned in part. Of liquid which is somewhat less volatile by separation in the distillation tower 2. Process according to claim 1 in which (a) such liquefied natural gas is sufficiently heated to partial vaporization; (b) Such partially vaporized liquefied natural gas is then separated by that method to provide There are such vapor and liquid flows; And (c) the vapor flow is expanded up to that lower voltage, and after that is Deliver to the aforementioned distillation tower at the feed position of the lower middle column; 3. Process according to claim 1, in which (a) the gas flow is extended up to the aforementioned lower pressure and thereafter Was sufficiently cooled to partially condense it; (b) Such partially condensed gas stream is separated by that method to provide current. Additional vapor and liquid flows; (c) The additional vapor stream is delivered to the distillation tower at the feed position of the The second middle column thereof; (d) The liquid stream is heated and then delivered to the distillation tower. Such at the feed position of the lower middle column; And (c) the vapor from the distillate is drawn from the lower distillation tower area. The expanded vapor stream and the said additional vapor current 4. Process according to claim 1 in which (a) such liquefied natural gas is sufficiently heated to partial vaporization; (b) Such partially vaporized liquefied natural gas is then separated by that method to provide There was such a stream of vapor and liquid flow first; (c) the first liquid current is expanded up to the aforementioned lower pressure, and It is then delivered to the distillation tower at the feed position of the first lower center column; (d) The gas current is enlarged up to the aforementioned lower pressure and thereafter Was sufficiently cooled to partially condense it; (e) Such partially condensed gas flows are then separated by that method to provide current. Additional vapor and second order liquid flows; (f) Such additional vapor flows are delivered to the distillation tower as in the feed position of the Second middle column; (g) Such a second flow of fluid is heated and afterwards supplied. To such distillation tower at the feed position of the second lower middle column; And (h) the vapor from the distillation is drawn from the lower area of the distillation tower. The amplified vapor stream and the said additional vapor current 5. Process in accordance with claim 1 or 2 in which (a) the gas stream is cooled, is expanded to a lower pressure, and thereafter is delivered to the distillation tower at its location. Feedings of the aforementioned second middle column; (b) The vapor from the distillation is drawn from the lower area of the distillation tower. The amplified vapor stream and said cooled amplified gas stream; And (c) such volatile liquid flows are sufficiently heated to vaporize, delivering that heat to a minimum. That part of the cooling of the gas stream 6. Process according to claim 3, in which (a) the gas stream is sufficiently cooled to partially condense it; In that way, it produces such additional vapor streams and such fluid flows; (b) The additional vapor current is expanded up to such a lower pressure and after It is then delivered to the distillation tower at the feed position of the aforementioned second center column; (c) The fluid flow is expanded to the aforementioned lower pressure, heated, and then delivered to the distillation tower at the low center column feeder position. Than such; (d) The vapor from the distillation is drawn from the lower area of the distillation tower. The first amplified vapor stream and the additional amplified thereof; And (e) such volatile liquid flows are sufficiently heated to vaporize, providing at a minimum of such heat. Part of the cooling of the said gas stream 7. Procedure according to claim 4 in which (a) such gas stream is sufficiently cooled to partially condense it, thereby producing the said additional vapor and a second such stream; (b) The additional vapor current is expanded up to such a lower pressure and after It is then delivered to the distillation tower at the feed position of the aforementioned second center column; (c) The second liquid stream is expanded to the aforementioned lower pressure, heated, and then delivered to the distillation tower at the column feeder position. (D) the vapor from the distillation is drawn from the area of the lower distillation tower. The amplified vapor stream and the further amplified vapor thereof; And (e) such volatile liquid flows are sufficiently heated to vaporize, supplying that heat to at least the Part of the cooling of the said gas stream 8. Process according to any of the 1st, 2nd, 3rd, or 4th claim, in which (a) such iResidius current is compressed to a higher pressure and thereafter is cooled by Arrange for such coolness to the very least. Part of such heat of current Such volatile liquid; And (b) that cold compressed iResidus current thereafter is combined with the The volatile liquid that forms such vapor to form a portion of the volatile resin gas 9. Process according to any of the 1,2,3,4,6, or 7 claim, in which (a) the condensed current is divided into The least Sequential reflux currents First and second reflux currents; (b) the first reflux current will be delivered to the distillation tower at the above feed position; And (c) the second reflux current is delivered to the distillation tower at the The feeder of the center column in the same region is significant where the vapor from the distillation is drawn 1 0. Procedure according to claim 5, in which (a) the condensed current is divided into The least Sequential reflux currents First and second reflux currents; (b) The sequence reflux current is supplied to the distillation tower at such upper feed location; And (c) the second reflux current is delivered to the distillation tower at the The feed of the center column in the same area is significant where the vapor from the distillation is drawn.1 1. Process according to claim 8, in which (a) the condensed current is divided into The least Reflux current First-order and second-order reflux currents; (b) The first reflux current is delivered to the distillation tower at the substance position. Enter the above section; And (c) the second reflux current is delivered to the distillation tower at the The feed of the center column in the same region is significantly the same from which the vapor stream from the distillation is drawn.1 2. Process according to any of the claims 1,2,3,4,6, or 7, in which the distillate fluid flows are drawn from the distillation tower at a position above the area where the vapor flows from The distillation is removed, then the fluid stream from the distillation is heated and The stream of such heated distillation liquid After that it will be redirected to the distillation tower. These are at a position below the area where the vapor from the distillation is extracted.1 3. The process according to claim 5, in which distillate fluid flows are extracted from The distillation tower is positioned above the area where the vapor from the distillation is extracted, then the distillation fluid stream is heated and the distillation fluid flows at Was so hot It will then be redirected to the distillation tower below the area. The vapor stream from the distillation is drawn 1 4. The process according to claim 8, in which distillate fluid flows are drawn from The distillation tower is positioned above the area where the vapor from the distillation is extracted, then the distillation fluid stream is heated and the distillation fluid flows at Was so hot It will then be redirected to the distillation tower below the area. In which the vapor stream from the distillation is drawn 1 5. The process according to claim 9, in which distillate fluid flows are drawn from The distillation tower is positioned above the area where the vapor from the distillation is extracted, then the distillation fluid stream is heated and the distillation fluid flows at Was so hot It will then be redirected to the distillation tower below the area. The vapor stream from the distillation is drawn 1 6. The process according to claim 10, in which distillate fluid flows are drawn from The distillation tower is positioned above the area where the vapor from the distillation is extracted, then the distillation fluid stream is heated and the distillation fluid flows at Was so hot It will then be redirected to the distillation tower below the area. In which the vapor stream from the distillation is drawn 1 7. The process according to claim 11 in which distillate fluid flows are drawn from The distillation tower is positioned above the area where the vapor from the distillation is extracted, then the distillation fluid stream is heated and the distillation fluid flows at Was so hot It will then be redirected to the distillation tower below the area. In which the vapor stream from the distillation is drawn 1 8. Process according to claim 1 in which (a) the distillation pack is converted into a stripper column to produce the Liquid (B) The evaporated vapor stream is supplied to the lower feed position, which is somewhat less volatile from the lower area of the stripped distillation tower. First to the absorption tower, where it produces upper vapor stream and lower liquid stream; (c) Such cold expanding gas flows are delivered to the absorption tower at the The second lower feeder; (d) The lower stream of liquid is delivered to the stripped distillation tower at the Feeder of the upper column; (e) The vapor from the distillation is drawn from the upper area of the distillation tower. Peeling off thereof; (f) At least Part of the condensed current will be supplied to Such absorption tower as a reflux current at the feed position of the upper column; And. (g) the amount and temperature of the said reflux currents and the temperature of such feeders. To the seepage tower and the stripped distillation tower is effective to maintain the temperature The upper part of the absorption tower and the depleted distillation tower at temperature By that way, the main part of The heavy hydrocarbon content is recovered in the liquid, which is relatively less volatile. Further, by sequencing in the adsorption tower and the stripped distillation tower, (a) the liquefied natural gas is sufficiently heated to partial vaporization; (b) Such partially vaporized liquefied natural gas is then separated by that method to provide There is a vapor stream and a liquid stream; And (c) the fluid flow is expanded up to the aforementioned lower pressure and after It is delivered to the aforementioned stripped distillation tower at the center column feed position 2 0. Procedures pursuant to claim 18, in which (a) the gas flow is extended up to the aforementioned lower pressure and thereafter Was sufficiently cooled to partially condense it; (b) Such partially condensed gas stream is separated by that method to provide current. Additional vapor and liquid flows; (c) Such additional vapor flows are delivered to the sorption tower at the feed position at Lower than that second; And (d) the fluid flow is heated and then supplied to The stripped distillation tower at the feed position of the center column 2 1. Process pursuant to claim 18 in which (a) such liquefied natural gas is sufficiently heated to partial vaporization; (b) Such partially vaporized liquefied natural gas is then separated by that method to provide There was such a stream of vapor and liquid first; (c) The gas current is expanded up to a lower pressure and after that Was sufficiently cooled to partially condense it; (d) Such partially condensed gas flows are then separated by that method to provide current. Additional vapor and second order liquid flows; (e) Such additional vapor stream is delivered to the sorption tower at the feed position at Lower than the second order; (f) the first such fluid flow is expanded up to the aforementioned lower pressure, and It is then delivered to the said stripped distillation tower at the feed position of the first central column; And (g) the aforementioned second-order fluid flow is heated and thereafter supplied. To the aforementioned stripped distillation tower at the feed position of the second middle column 2 2. Process in accordance with claim 18 or 19 in which (a) the gas stream is cooled, is expanded to a lower pressure, and thereafter is supplied to the absorption tower at The second lower feed position; And (b) such volatile liquid flows are sufficiently heated to vaporize, delivering such heat to a minimum. Part of the cooling of the said gas stream 2 3. Process according to claim 20, in which (a) the gas stream is sufficiently cooled to partially condense it; In that way, it produces such additional vapor streams and such fluid flows; (b) The additional vapor current is expanded up to such a lower pressure and after It is then delivered to the sorption tower at the aforementioned lower feed position; (c) The fluid flow is expanded to a lower pressure, is heated, and then delivered to the said stripped distillation tower at the column feeder position. In the middle thereof; And (d) such volatile liquid flows are sufficiently heated to vaporize, delivering that heat to a minimum. Part of the cooling of the said gas stream 2 4. Process according to claim 21, in which (a) the gas stream is sufficiently cooled to partially condense it; By that way, it forms that additional vapor stream and a second liquid stream thereof; (b) The additional vapor current is expanded up to such a lower pressure and after It is then delivered to the sorption tower at the aforementioned lower feed position; (c) The second liquid stream is expanded up to the aforementioned lower pressure, heated, and then delivered to the aforementioned stripped distillation tower at the feed position. Of the middle column thereof; And (d) such volatile liquid flows are sufficiently heated to vaporize, delivering that heat to a minimum. Part of the cooling of the said gas stream 2 5. Process according to any of the Proposition 18, 19, 20, or 21, in which (a) such iResidius current is compressed to a higher pressure and thereafter is cooled by Arrange for such coolness to the very least. Part of such heating of Volatile liquid flows thereof; And (b) the cold compressed vapor stream, after which it is combined with the liquid stream at Volatile to form a portion of such volatile resin gas 2 6. Process according to any of the claims 18, 19, 20, 21, 23 or 24, in which 3 (a) such condensed currents will be at least divided. Sequential reflux currents First and second reflux currents; (b) The first reflux current is delivered to the absorption tower at the material position. Enter the above section; (c) The lower fluid flows are delivered to the stripped distillation tower at Feed position of the upper center column; And (d) the second reflux current is delivered to the stripped distillation tower at Feed position of the upper column 2 7. Procedures according to claim 22, in which (a) such condensed currents will be divided to at least Reflux current First-order and second-order reflux currents; (b) The first reflux current is delivered to the absorption tower at the material position. Enter the above section; (c) Such a second reflux current will be delivered to the stripped distillation tower at Feed position of the upper column 2 8. Process according to claim 25, in which (a) such condensed currents will be divided to at least Reflux current First-order and second-order reflux currents; (b) The first reflux current is delivered to the absorption tower at the material position. Enter the above section; (c) The lower fluid flows are delivered to the stripped distillation tower at Feed position of the upper center column; And (d) the second reflux current is delivered to the stripped distillation tower at Feed position of the upper column 2 9. Process according to any of the Clauses 18, 19, 20, 21, 23, or 24, at a minimum Part of the lower fluid stream is heated before the liquid stream. The bottom is delivered to the said stripped distillation tower at the column feed position. The upper part is 3 0. Process according to claim 22, which at the very least Part of the liquid stream The lower part is pre-heated, the lower fluid stream is delivered to the distillation tower. Peel it off at the feed position of the upper column 3 1. Process according to claim 25, which at least Part of the liquid stream The lower part is pre-heated, the lower fluid stream is delivered to the distillation tower. Peel it off at the feed position of the upper column 3 2. Process according to claim 26, which at the very least Part of the liquid stream The lower part is pre-heated, the lower fluid stream is delivered to the distillation tower. Peel it off at the top center column feed position 3 3. Process according to claim 27, which at the very least Part of the liquid stream The lower part is pre-heated, the lower fluid stream is delivered to the distillation tower. Peel it off at the top center column feed position 3 4. Process according to claim 28, which at the very least Part of the liquid stream The lower part is pre-heated, the lower fluid stream is delivered to the distillation tower. Peel it off at the top center column feed position. -------------------------------------------------- --- 1. The process for the separation of liquefied natural gas containing methane, C2 component, and heavy hydrocarbon component and gas stream containing methane, C2 component, and heavy hydrocarbon component to volatile residual gas parts containing Main part of The methane and the aforementioned C2 components and the relatively less volatile liquid part. Containing the principal part of such heavy hydrocarbon component which (a) such liquefied natural gas is sufficiently heated to evaporate it, thereby forming a vapor stream; (b) The vapor current is extended to a lower voltage and thereafter supplied. Go to the distillation tower at the feed position of the first center column; (c) The gas stream is extended to a lower pressure, cooled, and then supplied to the distillation tower at the feed position of the central column. two; (d) The vapor from the distillation is drawn from the area of the distillation tower below the current. The expanded vapor and the said cooled gas stream, after the flow The vapor from this distillation is sufficiently cooled to partially condense it. At the very least, that method will form a condensed current and any residual vapor current, with the supply of Such cooling The least For part of such heating of gas Such liquid nature; (e) At the very least Part of the condensed current is supplied to The distillation tower as a reflux current at the feed position of the upper column; (f) Upper vapor is drawn from the top of the distillation tower and is then divided, at a minimum. The first and second segments, the digits from which the second section are Compressed to a higher pressure; (g) Such a second-order compressed part is sufficiently cooled to condense it at a minimum. And thus forms a volatile liquid stream, with the supply of such cooling. The least For part of such heating of gas Such liquid nature; (h) Such volatile flux flows are sufficiently heated to evaporate it, with the supply of such heating. The least For the cooling part Thereof of such amplified gas flows; (i) The first such element is heated, with at least the provision of such heating. For part of such cooling of the vapor stream from the said distillation; (j) Such evaporated volatile liquid flows, any such residual vapor stream, and the aforementioned primary phase are combined to form the remaining gas portions. which Such volatile matter containing the main part of the aforementioned methane and the above constituent C2; And (k) the amount and temperature of the reflux current and the temperature of the said feed. It is effective to maintain the upper temperature of the distillation tower at that temperature. Of liquid which is somewhat less volatile by separation in the distillation tower 2. The process for the separation of liquefied natural gas containing methane, C2 component, and heavy hydrocarbon component and methane gas stream, C2 component, and heavy hydrocarbon component to volatile residual gas parts containing Main part of The methane and the aforementioned C2 components and the relatively less volatile liquid part. Containing the majority of such heavy hydrocarbon components which (a) the natural gas is sufficiently heated to partial evaporation; (b) Such partially evaporated liquefied natural gas is then separated by that method for Vapor and liquid flows occur; (c) The vapor current is extended to a lower voltage and then supplied. It is then directed to the distillation tower at the feed position of the center column first (d), the fluid flow is extended to the lower pressure, and after It is supplied to the distillation tower at the feed position of the lower center column; (e) The gas stream is extended to a lower pressure, cooled, and then supplied to that distillation tower at the feed position of the central column. two; (f) The vapor from the distillation is drawn from the area of the distillation tower below the current. The expanded vapor and the said cooled gas stream, after which the The vapor from the distillation is sufficiently cooled to partially condense it. At the very least, that way it will form a condensed current and any residual vapor current, with the supplying Such cooling The least For part of such heating of gas Such liquid nature; (g) at least Part of the condensed current is supplied to The distillation tower as a reflux current at the feed position of the upper column; (h) Upper vapor is drawn from the upper area of the distillation tower and is then divided to, at least. The first and second segments, after which the second section are Compressed to a higher pressure; (i) Such a second-order compressed fraction is sufficiently cooled to condense it at a minimum. And thus forms a volatile liquid stream, with the supply of such cooling. The least For part of such heating of gas Such liquid nature; (j) Such volatile liquid flows are sufficiently heated to evaporate it, with such a heating arrangement. The least For part of the cooling Thereof of such amplified gas flows; (k) The first such element is heated, with the supply of such heating at a minimum. For part of such cooling of the vapor stream from the said distillation; (l) Such evaporated volatile liquid flows, any such residual vapor stream, and such heated primary are combined to form the remaining gas portions that Such volatile matter containing the principal part of the methane and the above constituent C2; And (m) the amount and temperature of the reflux current and the temperature of the said feed. It is effective to maintain the upper temperature of the distillation tower at that temperature. Of liquid which is somewhat less volatile by separation in the distillation tower 3. The process for the separation of liquefied natural gas containing methane, component C2, and heavy hydrocarbon component and mentane gas stream, C2 component, and heavy hydrocarbon-containing parts to the remaining volatile gas fraction. Easy with the main part The methane is the main hydrocarbon component in which (a) such liquid natural gas is heated enough to evaporate it, thereby forming a primary vapor stream; (b) The first such vapor is extended to a lower voltage and after that Is supplied to the distillation tower at the feed position of the first center column; (c) The gas current is extended to a lower pressure and after Will be sufficiently cooled to partially condense it; (d) The partially condensed gas stream is then separated by that method to provide Second-order vapor stream and liquid stream; (e) Such a secondary vapor stream is supplied to the distillation tower at the substance location. Enter of the second middle column; (f) Such fluid flows are heated and then supplied to Such distillation tower at the feed position of the lower middle column; (g) The vapor from the distillation is drawn from the area of the distillation tower below the current. The first amplified vapor and the second that flow, after the The distillation is sufficiently cooled to partially condense it. At the very least, that way it will form a condensed current and any residual vapor current, with at least the supply of such cooling. For part of such heating of liquefied natural gas; (h) at least Part of the condensed current is supplied to The distillation tower as a reflux current at the feed position of the upper column; (i) The upper vapor stream is drawn from the top of the distillation tower and is then divided at least. The first and second segments, after which the second are Compressed to a higher pressure; (j) The sequence in which the compressed light is sufficiently cooled to condense it at a minimum. And thus forms a volatile liquid stream, with the supply of such cooling. The least For part of such heating of gas Such liquid nature; (k) Such volatile liquid flows are sufficiently heated to evaporate it, with the supply of such heating. The least For part of the cooling Thereof of such amplified gas flows; (l) The first such element is heated, with the supply of such heating to a minimum. For part of such cooling of the vapor stream from the said distillation; (m) Such volatile liquid flows, any such residual vapor streams, and the aforementioned preheated fraction are combined to form the remaining portion of the gas. Volatile Dong said that contains the main part of the aforementioned methane and the aforementioned C2 component; And (n) the amount and temperature of the reflux current and the temperature of the said feed. It is effective to maintain the upper temperature of the tower at that temperature. By that way, the main part of the heavy hydrocarbon component is returned in part. Of liquid which is somewhat less volatile by separation in the distillation tower 4. The process for the separation of methane-containing liquefied natural gas, C2 component, and heavy hydrocarbon component and methane-containing gas stream, C2 component, and main hydrocarbon component to volatile residual gas parts containing Main part of The methane and the aforementioned C2 components and the relatively less volatile liquid part. Containing the majority of such heavy hydrocarbon components which (a) such liquefied natural gas is sufficiently heated to partially evaporate; (b) Such partially evaporated liquefied natural gas is then separated by that method for First-order vapor and first-order liquid flows occur; (c) The first such vapor is extended to a lower voltage and then Is supplied to the distillation tower at the feed position of the first center column; (d) the first liquid current is extended to the lower pressure, and It is then supplied to the lower center column feeder at the feed position of the first lower center column; (e) The gas current is extended to a lower pressure and thereafter Was sufficiently cooled to partially condense it; (f) The partially condensed gas stream is then separated by that method to provide Second order vapor stream and second order liquid stream; (g) Such a secondary vapor stream will be supplied to the aforementioned distillation tower at the Feeder of the second middle column; (h) Such a second-order fluid stream is heated and thereafter supplied. To the aforementioned distillation tower at the feed position of the second lower middle column; (i) Distillation vapor is drawn from the area of the distillation tower below the current. The first amplified vapor and the second that vapor stream, after the The distillation is sufficiently cooled to partially condense it. At the very least, that way it will form a condensed current and any residual vapor current, with at least the supply of such cooling. For part of such heating of liquefied natural gas; (j) At least Part of the condensed current is supplied to The distillation tower, as the reflux current at the feed position of the upper column, k (k) the upper vapor flow is drawn from the top of the tower and is divided to, at a minimum. The first and second segments, after which the second section are Compressed to a higher pressure; (l) The second such compressed fraction is sufficiently cooled to condense it at a minimum. And thus forms a volatile liquid stream, with the supply of such cooling. The least For part of such heating of gas Such liquid nature; (m) Such volatile liquid flows are heated sufficiently to evaporate it, with the supply of such heating up. The least For part of the cooling Thereof of such amplified gas flows; (n) The first such element is heated, with at least the provision of such heating. For part of such cooling of the vapor stream from the said distillation; (o) Such evaporated volatile liquid flows, any such residual vapor streams, and such heated primary are combined to form the residual gas portions. Such volatile matter containing the main part of the aforementioned methane and the above constituent C2; And (p) the amount and temperature of the reflux current and the temperature of the said feed. It is effective to maintain the upper temperature of the distillation tower at that temperature. By that way, the main part of the heavy hydrocarbon component is returned in part. Of the less volatile liquid by separating in the distillation tower 5. Process according to claim 1 or 2 in which (a) the gas stream is cooled, is extended to a lower pressure, and thereafter supplied to the distillation tower. At the feed position of the center column The second said; (b) The vapor from the distillation is drawn from the lower area of the distillation tower. The amplified vapor stream and said cooled amplified gas stream; And (c) the volatile liquid stream is sufficiently heated to evaporate it, with the supply of such a heating. The least For part of the cooling As mentioned of the said gas flow 6. A process according to claim 3 in which (a) such gas stream is sufficiently cooled to partially condense it, thereby forming a second such vapor and liquid stream; (b) the second-order gas current is extended to a lower pressure; and It is then directed to the distillation tower at the feed position of the aforementioned second center column; (c) The fluid flow is extended to the lower pressure, heated, and then supplied to the distillation tower at the feed position of the center column. Lower than thereof; (d) The vapor stream from the distillation is drawn from the lower area of the distillation tower. The first expanded and the second expanded; And (e) such volatile liquid flows are sufficiently heated to evaporate it, with the supply of such heating. The least For part of the cooling As mentioned of the said gas flow 7. Process according to claim 4 in which (a) the gas stream is sufficiently cooled to partially condense it, thereby forming a second such vapor and a second liquid stream. ; (b) the second such vapor current is extended to a lower voltage; and It is then supplied to the distillation tower at the feed position of the aforementioned second center column; (c) Such a second fluid stream is extended to a lower pressure, is heated, and after that is supplied to the distillation tower at the feed position of the The second lower center column (d) the vapor from the distillation is drawn from the area of the lower distillation tower. The first amplified current and the second that expanded vapor stream; And (e) such volatile liquid flows are sufficiently heated to evaporate it, with the supply of such heating. The least For part of the cooling As mentioned of the said gas stream 8. Process according to any of the Clause 1, 2, 3, or 4 where (a) any residual vapor And the first heated sequence part will be Combined to form the remaining vapor stream; And (b) the residual vapor current is compressed to a higher pressure and then is It is combined with such a volatile stream of liquid to form the remaining gas portions. Such volatile 9. Process according to any of the 1,2,3,4,6, or 7 claim, in which (a) the condensed current is divided into The least Sequential reflux currents First and second reflux currents; (b) Such a second reflux current is supplied to the distillation tower at the Top feed additives; And (c) such a second reflux current will be supplied to the distillation tower at the The central column feeder in the same region is significantly the same from which the vapor stream from the distillation is extracted 1 0. Procedure according to claim 5, in which (a) the condensed current is divided into The least Sequential reflux currents First and second reflux currents; (b) Such sequence reflux currents are supplied to the distillation tower at location Top feed additives; And (c) such a second reflux current will be supplied to the distillation tower at the The central column feeder is essentially in the same area through which the vapor stream from the distillation is extracted. Process according to claim 8, in which (a) the condensed current is divided into The least Reflux current First-order and second-order reflux currents; (b) that first reflux current at the position Feed on such substances; And (c) such a second reflux current will be supplied to the distillation tower at the The central column feeder in the same region is significant in which the vapor from the distillation is extracted.1 2. Process according to any of the claims 1,2,3,4,6, or 7, in which the distillate fluid flows are drawn from the distillation tower at a position above the area where the vapor flows from The distillation is removed, after which the liquid stream from the distillation is heated and The stream of such heated distillation liquid After that, it will be taken to the distillation tower at The location is lower than the area where the vapor from the distillation will be extracted 1 3. The process according to claim 5, in which distillate fluid flows are extracted from The distillation tower is positioned above the area where the vapor from the distillation is extracted, after which the distillate fluid is heated and the later heated distillation fluid streams. Was led to the distillation tower at a lower position where the vapor flow The distillation is extracted 1 4. The process according to claim 8, in which distillate fluid flows are drawn from The distillation tower above the area where the vapor from the distillation is extracted, after which the distillate fluid is heated and the later heated distillation fluid stream is Was led to the distillation tower at a location lower than the area emitted from Such distillation is removed 1 5. The process according to claim 9, in which distillate fluid flows are drawn from The distillation tower is positioned above the area where the vapor from the distillation is extracted, after which the distillate fluid is heated and the later heated distillation fluid streams. It was led to the distillation tower at a lower position than the area, emitted by the Such distillation is pulled 1 6. The process according to claim 10, in which distillate fluid flows are drawn from The distillation tower is positioned above the area where the vapor from the distillation is extracted, after which the distillate fluid is heated and the later heated distillation fluid streams. It was led to the distillation tower at a lower position than the area, emitted by the The distillation is extracted 1 7. The process according to claim 11 in which distillate fluid flows are drawn from The distillation tower is positioned above the area where the vapor from the distillation is extracted, after which the distillate fluid is heated and the later heated distillation fluid streams. It was led to the distillation tower at a lower position than the area, emitted by the The distillation is extracted 1 8. The process for the separation of liquefied natural gas containing methane, C2 component, and heavy hydrocarbon component and methane gas stream, C2 component, and heavy carbon hydrocarbon component to the residual gas fraction which evaporates. Easy with the main part The methane and the aforementioned C2 components and the relatively less volatile liquid part. Containing the main component of such heavy hydrocarbons which (a) such liquefied natural gas is sufficiently heated to evaporate it, thereby forming a vapor; (b) The vapor current is extended to a lower voltage and thereafter supplied. It is supplied at the first lower feed position to the absorption tower where it produces the upper vapor and current. Lower fluid; (c) The gas current is extended to the aforementioned lower pressure, cooled, and then supplied to that absorption tower at the lower feed position. two; (d) The lower fluid stream is supplied to the peel tower at the Feeder of the upper column; (e) Distillation vapor is drawn from the upper area of the peel-off tower, after which the distillate vapor is sufficiently cooled to partially condense it. At the very least, that way, it will form a condensed current and any residual vapor, with such a cooling supply. The least For part of the heating Such of such liquefied natural gas; (f) At least Part of the condensed current is supplied to Such absorption tower as a reflux current at the feed position of the upper column; (g) The upper vapor stream is divided into The least The first and second segments, after which the second segment is compressed to a higher pressure; (h) Such a second-order compressed segment is sufficiently cooled to condense it at a minimum. And thus forms a volatile liquid stream, with the supply of such cooling. The least For part of such heating of gas Such liquid nature; (i) Such volatile liquid flows are sufficiently heated to evaporate it, with such heating supplying. The least For part of the cooling Thereof of such amplified gas flows; (j) The first such element is heated, with at least the provision of such heating. For part of such cooling of the vapor stream from the said distillation; (k) Such evaporated volatile liquid flows, any such residual vapor stream, and such a heated first beam are combined to form the residual gas portions. Where Such volatile matter containing the main part of the aforementioned methane and the above constituent C2; And (l) the amount and temperature of the said reflux current and the temperature of the said feed. Go to the aforementioned absorption tower and such a peel-off tower is effective to maintain the upper temperature Of the said absorption tower and the said peel-off tower at the By that way, the main part of the components The heavy hydrocarbons are recovered in the relatively less volatile liquid part. By separating sections in the aforementioned absorption tower and the aforementioned stripping tower 1 9. The process for the separation of methane, C2, and heavy hydrocarbon components and mentane gas streams, C2 components, and heavy hydrocarbon constituents to volatile residual gases having a primary part of The methane and the constituent C2 and the relatively less volatile liquid part. Containing the majority of such heavy hydrocarbon components which (a) such liquefied natural gas is sufficiently heated to partially evaporate; (b) Such partially evaporated liquefied natural gas is then separated by that method for Vapor and liquid flows occur; (c) The vapor current is extended to a lower voltage and then supplied. It is supplied at the first lower feed position to the absorption tower where it produces the upper vapor and current. Lower fluid; (d) The gas current is extended to the aforementioned lower pressure, cooled, and then supplied to the absorption tower at the second lower feed position. ; (e) The lower fluid stream is supplied to the excretion tower at the material location. Input of the column of the upper part; (f) The fluid current is extended to a lower pressure and after It is then supplied to the extraction tower at the feed position of the center column; (g) Distillation vapor is drawn from the upper area of the peel-off tower, after which the distillate vapor is sufficiently cooled to partially condense it. At the very least, that way, it will form a condensed current and any residual vapor, with such a cooling supply. The least For part of the heating Such of such liquefied natural gas; (h) at least Part of the condensed current is supplied to Such absorption tower as a reflux current at the feed position of the upper column; (i) The upper vapor stream is divided into The least The first and second segments, after which the second segment is compressed to a higher pressure; (j) Such a second-order compressed fraction is sufficiently cooled to condense it at a minimum. And thus forms a volatile liquid stream, with the supply of such cooling. The least For part of such heating of gas Such liquid nature; (k) Such volatile liquid flows are sufficiently heated to evaporate it, with the supply of such heating. The least For part of the cooling Thereof of such amplified gas flows; (l) The first such element is heated, with the supply of such heating to a minimum. For part of such cooling of the vapor stream from the said distillation; (m) Such volatile volatile liquid flows, any such residual vapor streams, and such a heated primary are combined to form the remaining gas portions that Such volatile matter containing the main part of the aforementioned methane and the above constituent C2; And (n) the amount and temperature of the reflux current and the temperature of the said feed. Go to the aforementioned seepage tower and it will be effective to maintain the upper temperature. Of the absorption tower is returned to the relatively less volatile liquid. By separating the sections in the aforementioned absorption tower and the aforementioned stripping tower 2 0. The process for the separation of liquefied natural gas with methane, C2 component, and heavy hydrocarbon component and methane gas stream, C2 component, and heavy hydrocarbon component and methane gas stream, C2 component, and Heavy hydrocarbon components to volatile residual gas portions that are the main part of The methane and the aforementioned C2 components and the relatively less volatile liquid part. Containing the principal part of such heavy hydrocarbon components which (a) such liquefied natural gas is sufficiently heated to evaporate it, thereby forming a primary vapor stream; (b) The first such a vapor current is extended to a lower voltage and after Is supplied at the first lower feed position to the absorption tower where the upper vapor flows and Lower fluid stream; (c) The gas current is extended to a lower pressure and after Will be sufficiently cooled to partially condense it; (d) The partially condensed gas stream is then separated by that method to provide Second-order vapor stream and liquid stream; (e) Such a secondary vapor stream will be supplied to the distillation tower at the The second lower feeder; (f) The lower fluid stream is supplied to the peel tower at Feeder of the upper column; (g) Such fluid flows are heated and then supplied to The peel-off tower thereof at the feed position of the center column; (h) The distillation vapor stream is pulled from the upper area of the peel-off tower, after which the distillate vapor is sufficiently cooled to partially condense it. At the very least, that way, it will form a condensed current and any residual vapor, with such a cooling supply. The least For part of the heating Such of such liquefied natural gas; (i) at least Part of the condensed current is supplied to Such absorption tower as a reflux current at the feed position of the upper column; (j) The upper vapor flow is divided into The least The first and second sections, after which the second is compressed to a higher pressure; (k) Such a second-order compressed fraction is sufficiently cooled to condense it at a minimum. And thus forms a volatile liquid stream, with the supply of such cooling. The least For part of such heating of gas Such liquid nature; (l) Such volatile liquid flows are sufficiently heated to evaporate it, with the supply of such heating. The least For part of the cooling Thereof of such amplified gas flows; (m) The first such element is heated, with supplying at least such heating. For part of such cooling of the vapor stream from the said distillation; (n) Such volatile volatile liquid flows, any such residual vapor streams, and such a heated primary are combined to form the remaining gas portions that Such volatile matter containing the main part of the aforementioned methane and the above constituent C2; And (o) the amount and temperature of the reflux current and the temperature of the said feed. Go to the aforementioned absorption tower and such a peel-off tower is effective to maintain the upper temperature Of the said absorption tower and the said peel-off tower at the By that way, the main part of the components The heavy hydrocarbons are recovered in the liquid, which is relatively less volatile. By separating the sections in the aforementioned absorption tower and the aforementioned stripping tower 2 1. The process for the separation of liquefied natural gas containing methane, C2 component, and heavy hydrocarbon component and gas stream containing methane, C2 component, and heavy hydrocarbon component to volatile residual gas parts containing Main part of The methane and the aforementioned C2 constituents and the relatively less volatile liquid fraction contain The main part of such heavy hydrocarbons in which (a) the liquefied natural gas is sufficiently heated to partially evaporate; (b) Such partially evaporated liquefied natural gas is then separated by that method for First-order vapor and first-order liquid flows occur; (c) The first such a vapor current is extended to a lower voltage and after Is supplied at the first lower feed position to the absorption tower where the upper vapor flows and Lower fluid stream; (d) The gas current is extended to a lower pressure and thereafter. Will be sufficiently cooled to partially condense it; (e) Some of the aforementioned condensed gas streams will be separated by that method to provide Second order vapor stream and second order liquid stream; (f) Such a secondary vapor stream is supplied to the distillation tower at the The second lower feeder; (g) The lower fluid stream is supplied to the peel tower at the Feeder of the upper column; (h) the first such liquid current is extended to the lower pressure, and After that it is supplied to the excretion tower at the feed position of the first center column; (i) Such a second-order fluid flow is heated and thereafter supplied. Go to the said extraction tower at the feed position of the second middle column; (j) The distillation vapor stream is drawn from the upper area of the peel-off tower, after which the distillate vapor is sufficiently cooled to partially condense it. At the very least, that way, it will form a condensed current and any residual vapor, with such a cooling supply. The least For part of the heating Such of such liquefied natural gas; (k) at least Part of the condensed current is supplied to Such absorption tower as a reflux current at the feed position of the upper column; (l) The upper vapor stream is divided into The least The first and second segments, after which the second segment is compressed to a higher pressure; (m) The second such compressed fraction is sufficiently cooled to condense it at a minimum. And thus forms a volatile liquid stream, with the supply of such cooling. The least For part of such heating of gas Such liquid nature; (n) Such volatile liquid flows are sufficiently heated to evaporate it, with the supply of such heating. The least For part of the cooling Thereof of such amplified gas flows; (o) The first such element is heated, with at least the provision of such heating. For part of such cooling of the vapor stream from the said distillation; (p) Such evaporated volatile liquid flows, any such residual vapor stream, and such a heated primary are combined to form the residual gas portions that Such volatile matter containing the principal part of the aforementioned methane and the said C2 component; And (q) the amount and temperature of the above reflux current and the temperature of the said feed. Go to the aforementioned absorption tower and such a peel-off tower is effective to maintain the upper temperature Of the said absorption tower and the said peel-off tower at the By that way, the main part of the components The heavy hydrocarbons are recovered in the relatively less volatile liquid part. By separating the sections in the aforementioned absorption tower and the aforementioned stripping tower 2 2. Process in accordance with claim 18 or 19 in which (a) the gas stream is cooled, is extended to such lower pressure, and thereafter supplied to the absorption tower. Say at the aforementioned second lower feed position; And (b) such volatile liquid flows are sufficiently heated to evaporate it, with the supply of such heating. The least For part of the cooling The said flow of gas 2 3. Process according to claim 20 in which (a) such gas stream is sufficiently cooled to partially condense it, thereby forming a second such vapor and liquid stream; (b) such a second-order vapor current is extended to a lower voltage; and It is then supplied to the absorption tower at the aforementioned second lower feed position; (c) The fluid flow is extended to a lower pressure, heated, and then supplied to the extraction tower at the upright column feeder position. Such medium; And (d) such a volatile liquid stream is sufficiently heated to evaporate it, with the supply of such heating. The least For part of the cooling As mentioned of the said gas flow 2 4. A process according to claim 21 in which (a) such gas flows are sufficiently cooled to partially condense it, thereby forming a second such vapor and a second liquid stream. ; (b) such a second-order vapor current is extended to a lower voltage; and It is then supplied to the absorption tower at the aforementioned second lower feed position; (c) Such a second fluid stream is extended to the aforementioned lower pressure, heated, and then supplied to the aqueous removal tower at the feed position of The second middle column thereof; And (d) such a volatile liquid stream is sufficiently heated to evaporate it, with the supply of such heating. The least For one garden of cooling As a result of the aforementioned gas stream 2 5. Process according to any of the clauses 18,19,20, or 21 in which (a) any residual vapor And the first heated sequence section thereof Were combined to form the remaining vapor stream; And (b) the residual vapor current is compressed to a higher pressure and thereafter is Combined with the volatile liquid stream that was evaporated to form the remaining gas portions that Such volatile matter 2 6. Process according to any one of the claims that 18,19,20,21,23 or 24, in which (a) such condensed currents are divided into The least Sequential reflux currents First and second reflux currents; (b) Such first reflux current is supplied to the absorption tower at the location Top feed additives; (c) The lower stream of fluid is supplied to the excretion tower. At the feed position of the upper center column; And (d) such a second reflux current will be supplied to the said discharge tower. At the feed position of the upper column 2 7. Process according to claim 22, in which (a) condensed currents to The least Reflux current First-order and second-order reflux currents; (b) Such first reflux current is supplied to the absorption tower at the location Such additives; (c) The lower stream of fluid is supplied to the excretion tower. At the top center column feeder position; And (d) such a second reflux current will be supplied to the stripping tower. At the feed position of the upper column 2 8. Process according to claim 25, in which (a) the condensed current is divided into The least Reflux current First-order and second-order reflux currents; (b) Such a first reflux current is supplied to that absorption tower at the Top feed additives; (c) The lower stream of fluid is supplied to the excretion tower. At the feed position of the upper center column; And (d) such a second reflux current will be supplied to such a fool out. At the feed position of the upper column 2 8. Process according to claim 25, in which (a) the condensed current is divided into The least Reflux current First-order and second-order reflux currents; (b) Such a first reflux current is supplied to that absorption tower at the Top feed additives; (c) The lower stream of fluid is supplied to the excretion tower. At the feed position of the upper center column; And (d) such a second reflux current will be supplied to such a fool out. At the feed position of the upper column 2 9. Process according to any one of the claims that 18,19,20,21,23 or 24, at the very least Part of the lower fluid stream is heated before the liquid stream. The aforementioned lower is supplied to the excretion tower at the feed position of the upper column 3 0. Process according to claim 22, which at the very least Part of the liquid stream The lower part is preheated, the lower fluid stream is supplied to the tower. Peel it off at the feed position of the upper column 3. 1. Process according to claim 25, which Part of the liquid stream The lower part is preheated, the lower fluid stream is supplied to the stripping tower. Output at the feed position of the aforementioned upper column 3. 2. Process C according to claim 26, which at the very least Part of the liquid stream The lower part is preheated, the lower fluid stream is supplied to the stripping tower. Exit it at the feed position of the above center column 3. 3. Process according to claim 27, which at the very least Part of the liquid stream The lower part is preheated, the lower fluid stream is supplied to the stripping tower. Exit it at the feed position of the above center column 3. 4. Process according to claim 28, which at the very least Part of the liquid stream The lower part is preheated, the lower fluid stream is supplied to the stripping tower. Output at the feed position of the above center column.