TH55128B - Liquefied natural gas and hydrocarbon process gas - Google Patents

Claims (5)

Disclaimer (all) which will not appear on the advertisement page: Edit 26/06/15 1 Process for the separation of methane liquefied natural gas And components Hydrocarbons are heavier and the current is a methane gas. And the hydrocarbon component is heavier The frog is a digestive substance, volatile gases are the main part of methane. And volatile liquid digestion First, the minor contains heavier hydrocarbon constituents, where (a) the said liquefied natural gas is least divided into sequential fluid flows. And the second flow of liquid, (b) the stream of the same stream of liquid to expand at a lower pressure. And after The holding column is placed at the feeding position in the middle of the upper column one, (c) the second-order liquid bottle is sufficiently hot to at least evaporate the fibers. That is, at the very least, it forms a first order vapor, (d) that sequence vapor expands to such a lower pressure and is delivered. To the aforementioned distillation column at the feed position in the middle of the lower column one, (e) the current is the gaseous one, at least the current is the first order gas and the second order gas current, (f) the current is the first order gas. Such Cold to condensate is all important. The current and afterwards expand the hair, obtaining such a lower pressure. With the subsequent flow, (g) the current as a gas of the first order is concentrated significantly, then it is sent to the distillation column. At the feed position in the middle of the upper column second, (h) the aforementioned second gas current expands until It has a lower pressure. Cooled until at least partially condensed gas And after that ship to the said distillation column at the location Entered in the middle of the bottom two columns, (i) the upper distillation stream is taken from the upper area of the distillation column and is divided into at least one order. And the second order, with the first one compressing the pressure Until the pressure is higher. (j) One sequence is compressed by such pressure. Cool enough to at the very least Condensation part one, some And formed condensation with such cooling, supplying at least one portion of the heating of the aforementioned second-order liquid stream, (k) that condensation current is divided at least. At the most evaporating liquid flows and reflux, (1) the reflux tubes are then cooled. With such a cooling, deliver at least One such heating part of the aforementioned second-order liquid stream, (m) the subsequent cold reflux is delivered to the The aforementioned distillation column The upper column, (n) the evaporation liquid flows sufficiently heated to evaporate the current, with The heating is said. Deliver at least one portion of the said evening of one or More than just a gas is the first gas. And the current as a second such gas expands, (0) the second such heating part, such heating thread At least delivery At most one such cooling part of one or more of the first gaseous currents and the second gaseous currents expand them (p) the volatile liquid flows have turned into such vapors. And the second part heats them together to form the said volatile gas residant. It contains the main part of methane. And (q) volume and temperature Of the reflux current And the temperature of the said protective agent To the aforementioned distilled column It is effective in maintaining the upper temperature of the distillation column. At temperature, where the main part of the hydrocarbon component is heavier than that Brought back in the digestive substance Relatively less volatile matter by fractional distillation in the aforementioned distillation column 2. Process according to claim 1, (a) before being supplied to the said distillation column. The second gas cylinder expands until the pressure is lowered. And then after sufficiently cooling in partial condensation, (b) the second-order gas stream expands the partial condensation. It was raised to indicate a second and third flow, (c) a second aqueous flow. And after delivery of the aforementioned distillation column to the center of the second bottom column, (d) the heating of the stream is at least the said volatile liquid. The most part of such cooling Of one or more of the gas is one of the aforementioned gases, the currents are the second gases expanding, Kang said. And the current is the second order vapor, and (e) the aforementioned heating of at least one such second section Of the said cooling Of one or more of the current is the aforementioned gas, the current is the second order gas expanding. And the current is the second such vapor 3. The process according to claim 1, where (a) the second-order liquid crystal partially evaporates. Separate to provide such vapor and liquid streams, and (b) the flow of the said flux expands to such a lower pressure and thereafter delivered to the distillation column. At the entry position in the middle of the bottom column, sequence three 4. The process according to claim 1, where (a) the second fluid stream is partial such vapor. Were separated by providing The current is the first such vapor and the third liquid, (b) before being supplied to the distillation column. Where the current is the second order of gas expanding Add some of them This is separated by a second-order vapor and a fourth-order vapor, (c). Later cooled and then delivered to Such distillation column At the lower center of the second lower column, (d) the third flow of liquid expands to lower tonnes, and then is delivered to the distillation column. At the middle of the lower third of the column, (e) the liquid bottle above. Sent to the distillation column At the entry position The central column below the fourth order, (f) the heating of the aforementioned current is at least the said evaporative flux. The most part of such cooling Of the one or more of the current is the aforementioned gas, the second is the gas of the second. And the current is steam sequence And (g) the aforementioned heating of at least one of the aforementioned parts delivered. Of such cooling Of one or more of the gases is the aforementioned, second-order gas currents expand it. And the current is the second such vapor, 5. Process according to Article 1 or No. 3, where (a) the second part Is pressed to a higher pressure, (b) the second pressure is heated With such heating, at least one portion of the said cooling is delivered. One or more of the currents is a sequence gas. One such And show up as a second order gas that expands, and (c) volatile liquid glass as such And the second, the hot pressure, asks each other to form such volatile resin substrate 6. Procedures pursuant to Clause 2 or No. 4, where (a) the above and the two It is pressurized to a higher pressure, (b) the second pressure is heated. With such heating delivered At least one part of such a cooling Of one or more of the current Is sequence gas One such Gas is the second order of gas expansion thereof And the current is the second such vapor, and (c) the liquid current evaporates into that vapor. And second pressure, the pressure to heat the said concentrate to form the volatile gas reside substrate. Process according to claim 1 or 3, where (a) current is such a second gas. Cooling before expansion (b), the second part The ball presses until a higher pressure (c) can evaporate the liquid. It heats sufficiently to evaporate the current, with such heating Establish at least one such cooling part of one or more of the current as one such gas. The current is the aforementioned second-order gas, and the second-order gas expands it (d). With such heating, Jukk commanded at least one part of such cooling. Of one or more of the gas is the sequence gas. One such, the current is a second such gas. And the current is a second-order gas expands, and (e) the liquid stream is vaporized into such vapor, and the second is pressurized, causing it to combine to form a volatile gas resitient substrate. Said 8. Process according to claim 2, where (a) current is the aforementioned second gas. It is sufficiently cooled in partial current condensation, (b) the second-order gas that partially condenses. Was raised in order to provide The aforementioned second-order vapors and the third-generation liquids, (c) the second-order vapors. It expands to the aforementioned low pressure, then cools and then ships to the distillation column. At the bottom entry center of the second column thereof. (d) such third liquid flow It expands until the pressure is lowered and then delivered to the distillation column. In the middle of the bottom column number three. (e) the second mentioned part Press the pressure until the pressure is rising. (f) Such volatile liquid flows It heats sufficiently to vaporize current, with such heating delivers at least one of the aforementioned cooling parts of one or The greater of the current is the aforementioned gas, the second is the aforementioned gas, and the current is The second-order vapor expands as such (g) the second-order vapor heats the pressure. With such heating, at least one part of the request for such cooling is delivered. One or more of the currents is a sequence gas. One such, gas is the second such gas. And the high-order vapor flows that expand, and (h) that vapor evaporates liquid flows. And second, the hot pressure is combined to form a volatile gas residative substrate. 9. Process according to claim 4, where (a) the aforementioned second-order gas current is sufficiently cooled in partial condensation, (b) the second-order gas flow is partially isolated to Make a flow The second such cough And the aforementioned fourth fluid flow, (c) the second such vapor expands to the aforementioned lower pressure, cools down, and then is delivered to the low distillation cluster. The second lower center column feed position (d) the fluid flow with the four expands until The lower pressure was obtained and then delivered to the distillation column at the aforementioned fourth bottom column feeder, (c) the second counter pressurized until the pressure was reached. Higher, (f) Such volatile liquid gases are heated sufficiently to evaporate the current, too Such heating supplies at least one of the aforementioned cooling of one or The greater of the current is the aforementioned gas, the second is the aforementioned gas, and the current is The second-order vapor expands thereof, (g) the second-order compressed pressure heats it, with such heating delivered. At least one such cooling part of one or more of the currents is a sequence gas. One of the above, the aforementioned second-order gas currents, and the third-generation vapors expands, and (h) the volatile liquid flasks become such vapors. Such hot heat is combined to form such volatile gas reside substrate 1 0. Process according to claim 8, where (a) the gas is sufficiently cooled in partial condensation, (b) the partial condensate gas current is separated to provide current. It is the aforementioned second-order vapor and the aforementioned third-order liquid stream, (c) the aforementioned second-order vapor, at the very least, the gas of the sequence. One such And the aforementioned second-order gas current, (d) the second-order gas flow expands until The lower pressure was cooled, and then delivered to the distillation column at the aforementioned second center column feeder. (e) Such volatile liquid stream is sufficiently heated to vaporize the tar stream, by heating it to deliver at least one of the aforementioned cooling portion of one or more. More of the current is such a gas, the stream is one of the said gas, and the gas is a sequence of gases. Two sells the aforementioned, and (f) the second one compresses the said pressure heats, by heating it. At least one of the aforementioned cooling parts of one or more of the gas cylinders is such a gas. The current is the first such gas. And the current is a second order of gas expanding as 1 1. Process according to claim 9, where (a) the flask is sufficiently cooled in partial condensation, (b) the flask is a thin condensing gas. The section was separated to provide the aforementioned second-order vapor and the fourth-order liquid stream, (c) that second-order vapor flow, at least as a sequential gas. One such And the current is the aforementioned second-order gas, (d) the gas sequence of the gas expands to such a lower pressure, cools it, and then delivers it to the distillation column at the feed position. In the middle of the column below the second said. (e) Such a volatile liquid stream is sufficiently heated to the vaporization stream, with such heating it delivers at least one of the aforementioned cooling portion of one or more. The greater the flow of the gas, the current is the first such gas, and the second is the gas. The expansion, and (f) the second sequence compresses the said pressure, heats it, by heating it is delivered. At least one of the aforementioned cooling part of one or more of the aforementioned gas flows, the current is one such gas. And the current is a second order of gas expanding as 1 2. The process for separating liquefied natural gas has mitane. And components Hydrocarbons are heavier. And the current is mitane gas And the hydrocarbon component is heavier It is a volatile gas digestant, the main part of the mitaine and volatile liquid digestion. Rather, the main part of the hydrocarbon component is heavier than that, where (a) such liquid natural gas is divided into at least first-order fluid stream and second-order liquid stream, (b) liquid gas. The first flow of liquid was expanded to a lower pressure and then delivered to the first distillation column at the feed position in the middle of the upper column, (c) the second fluid flow was sufficiently heated at Will make At least some of the current is vaporized, therefore it forms at least one sequence vapor, (d) that sequence of vapor expands to such a lower pressure. And delivered to the aforementioned distillation columns at the lower center of the lower column one, (e) one upper distillation stream taken from the upper area of the sequence distillation column. One such And pressurized until a higher pressure is obtained, (f) the upper distillation current one is forced to cool it sufficiently to Condenses at least partly to the current and forms condensation, with such cooling Deliver at least one such heating portion of the aforementioned second-order liquid stream, (g) that condensation current is divided into at least volatile liquid stream and reflux liquid stream, (h). The reflux liquid was later cooled by such a cooling, delivered in an At least one such heating part of the aforementioned second-order liquid stream (i) the reflux fluid stream is subsequently cooled down to a minimum. One order reflux currents and one order reflux currents and second order reflux currents, (j) such one order reflux currents are delivered to the aforementioned distillation columns at The upper column feeder position (k). Such gas currents are divided into at least a first-order gas and a second-order gas current (1). All major current and then expand to a second lower pressure, with the subsequent cooling down, (m) the current as a condensation of the first gases. To the second-order distillation column at the upper-middle-column feed-in position, (n) the gas-chamber and the two are expanded until the aforementioned second lower pressure is achieved. It was cooled until at least partially condensed gas. And after that ship it to a sequential distillation column The second reflux current is delivered to the aforementioned second-order distillation column, (o). Top column feed position (p) The second upper distillation stream is brought out from the upper layer of the second condensing column, (q). Is vapor, with such heating delivered at least one part of such cooling of one or The greater of the current is the aforementioned gas and the current is the second-order gas expanding, (r) the aforementioned upper-order second-order condensate, by such heating Deliver at least one portion of the aforementioned cooling of one or more of the gas cylinder. One such order And the current as a second order gas expands as such, the volatile liquid (s) has become Such cough and Second-order upper distillation stream The aforementioned heating is combined to form the aforementioned volatile gaseous resin substrate with the main part thereof, (t) the lower one from the aforementioned distillation column and the lower order fluid. Two of the aforementioned distillation columns combine to form volatile liquid digestion. Relatively less, and (u) the volume and temperature of the reflux cans. And the aforementioned first and second temperatures of the aforementioned feed substances into the first distillation column. And the second is effective. Maintaining the upper temperature of the first order distillation column. And the aforementioned second order at temperature by section The main component of the heavier hydrocarbons is recovered in the volatile liquid digester. Relatively less is the fractional distillation in the first distillation column. And number two as mentioned 1 3. Process according to claim 12, where (a) before being supplied to the aforementioned second distillation column, the gas was a second order. Some of the condensation expansion was carried out to provide a second fume. And the third (b) fluid flows, the second is the vapor that then cools. And thereafter shipped to the aforementioned second distillation column at the aforementioned lower column feeder location, (c) the third liquid glass to the aforementioned second distillation column. The feed position in the middle of the lower second column, (d) the heating of the current is at least the said volatile liquid. At most one such cooling part of one or more of the aforementioned gas currents, the aforementioned second-order gas, and the aforementioned second-order vapor stream, (e) heating. The aforementioned of the aforementioned upper distillation, the second order was delivered in At least one of the aforementioned cooling part of one or more of the current is a single sequence gas. As mentioned, gas is the second order of gas that is expanding, and gas is the second such gas 1 4. The process according to claim 12, where (a) the second-order liquid stream becomes partially vaporized to provide a One such vapor and sequential fluid stream; And (b) such third liquid flow Expand until the pressure is lowered that number one And then delivered to one of the aforementioned distillation columns At the input position in the middle of the bottom column second 1 5. Process according to claim 12, where (a) the second liquid stream is partially vaporized to provide a diffuse effect. And the third fluid flow, (b) the flow of the third lower pressure. And after Delivered to one such column. At the feed position in the middle of the second lower column, (c) before being supplied to the aforementioned second-order distillation column, the stream is the second order gas Some of the aforementioned condensers were raised to provide second-order vapor and fourth-degree liquids, (d) such second-order steams, later cooled and then arranged. Send to The aforementioned second-order distillation columns at the aforementioned lower-center-column feeder, (e) the fourth-fluid-flow is delivered to the aforementioned second-order distillation columns at The feed position in the middle of the second lower column, (f) the aforementioned heating of the current is at least the said volatile liquid delivered. At most, one of the aforementioned cooling of one or more of the currents is the aforementioned gas; (g) that heating of the aforementioned second-order upper distillation currents delivered as At least one of the aforementioned cooling part of one or more of the currents is a first-order gas. As mentioned, the current is the aforementioned second-order gas, and the second-order vapor, 1 6. Process according to claim 12 or 14, where (a) the second upper distillation current compresses the pressure to a higher pressure, (b) the upper distillate flow, the compression sequence heats it. , With heating It ships at least one part of the aforementioned cooling or more of the current. And (c) the volatile liquid flows become such vapors and the upper secondary distillation currents. Compresses such heating pressures together to form volatile gas substrate 1 7. Process in accordance with claim 13 or No. 15 where (a) the second upper distillation current is compressed to a higher pressure, (b) the second upper distillate compresses this pressure. Hot, by heating It ships at least one of the aforementioned cooling parts of one or more of the streams. It is the aforementioned gas, the second order gas current expands, and the second order vapor stream (c) the volatile liquid stream becomes that vapor and the upper secondary distillation current. Compresses such heating pressure to form volatile gas residants 1 8. Process according to claim 12 or article 14 where (a) such second-order gas is cooled before such expansion, (b) the upper distillation current of such a compression. Pressure until a higher pressure is achieved, (c) such a volatile liquid stream heats sufficiently to vaporize, with such heating delivered at least part of the cooling of the One or More than that of gas is one such gas. Gas is the second such gas, and is The second-order gas expands, (d) the second-order upper flue compresses the pressure to heat, by heating. It ships at least one of the aforementioned cooling parts of one or more of the streams. It is the aforementioned gas, the aforementioned second-order gas stream, and the second-order vapor flow, and (e) the volatile liquid stream becomes that vapor and the upper secondary distillation current. Compresses such heating pressures together to form volatile gas hydrolysis 1 9. Procedure according to Term 13, where (a) current is such a second gas. Cool it sufficiently for some condensation. (b) Gas is a second-order gas, partially condensed. The loop was raised in order to provide a flow. The aforementioned second and the aforementioned liquid streams, (c) the second-order vapor expands until the aforementioned second-order low-pressure, Cool down, and then ship to the aforementioned second distillation column at the center input position. (D) the aforementioned third-order fluid flow expands the aforementioned secondary pressure. And thereafter delivered to the aforementioned second-order distillation column at the aforementioned middle-column bottom-feed position, (e) the second upper-flow pressurized to a higher pressure, (f) fluid flow. Such evaporators are heated sufficiently to the vaporization current, with such heating delivered at least one of the aforementioned cooling parts of one or more. The greater of the current is the aforementioned gas, the second is the aforementioned gas, and the current is The second-order vapor sells the aforementioned, (g) the second-order upper distillation stream compresses the pressure to heat it, by giving the The aforementioned heating delivers at least one of the aforementioned cooling parts of one or more of The current is the first such gas, the second that the current is the second vapor. It expands, and (h) the evaporation liquid crystal has become such a vapor. And the second upper distillation stream The pressurized heating is combined to form a volatile gas substrate of such volatile gas 2 0. Process according to claim 15, where (a) such second-order gas current is sufficiently cooled to condense the current. Is a partial gas, (b) current is a second-order gas, some of that condensation is separated to form a current as The second vapors and the fourth fluid stream, (c) the second vapors expands to the aforementioned second low pressure, cooled and then transported to the column. Refine the aforementioned second at the input position in the middle of the column. Below the aforementioned order, (d) the fourth liquid stream sells itself until it attains a second lower pressure, and After that, it is delivered to the aforementioned second distillation column at the center input position of the second bottom column. (e) Such a second upper distillation current compresses the pressure to a higher pressure, (f) the volatile liquid stream heats sufficiently to vaporize the stream, with such heating delivered as At least one such cooling part of one or The greater of the current is the aforementioned gas, the second is the aforementioned gas, and the current is Second-order vapor sells such a vapor, (g) the second-order upper distillation compresses the pressure, heating it by It ships at least one of the aforementioned cooling parts of one or more of the streams. It is the aforementioned gas, the aforementioned second-order gas stream, and the second-order vapor flow, and (h) the volatile liquid stream becomes that vapor and the upper secondary distillation current. Compresses such heating pressure together to form volatile gas residants 2 1. Process according to claim 19, where (a) such gas is cooled only in partial condensation to the current, (b) the partial condensate gas stream is separated to provide The aforementioned second-order vapor and the aforementioned third-order liquid currents, (c) the aforementioned second-order vapor currents, divided into, at least, the sequence-gas streams. (D) The aforementioned second gas flow expands to the aforementioned second lower pressure, cooled, and thereafter delivered to a second distillation column. As mentioned at the position entered in the middle of the column. Below one of the aforementioned, (e) a such volatile liquid stream heats sufficiently to vaporize, \ 'by heating the cascade to at least part of the cooling. Such one or More of the current It is such a gas, gas is one such gas. And the current is a sequence gas Two such expansions, and (f) the second upper current compresses such pressure, heating, by heating. It ships at least one of the aforementioned cooling parts of one or more of the streams. It is such a gas, the current is the first such gas, and the second is the second gas. 2 2. Process according to claim 20 where (a) the gas stream is sufficiently cooled in partial condensation to the current, (b) the partial condensation gas current is separated to provide a Sequence cough The aforementioned two and a fourth liquid stream, (c) the aforementioned second-order vapor flow, divided into at least the sequence gas current One such And the current is the aforementioned second gas, (d) the aforementioned second gas current sells itself until the aforementioned second lower pressure, cools down, and thereafter delivered to the aforementioned second distillation column Position entered in the middle of the column Below one of the aforementioned, (e) such a volatile liquid stream heats sufficiently for the vaporization stream, with such heating delivered at least one of the aforementioned cooling part of one or The greater of the current is the said gas, the current is the first such gas, and the current is the sequence gas. Two such expansions, and (f) the second-order upper distillate compresses such pressure, heating, by heating. It is ordered at least one of the aforementioned cooling parts of one or more of the current. It is the aforementioned gas, the aforementioned gas current, and the second-order gas current expanding 2 3. Process according to any Clause 1,2,3,4,8,9,10 or Article 11, where (a) the said liquefied natural gas is heated and thereafter divided at a minimum. The aforementioned liquid flows of first order and the second fluid flows, and (b) that cooling of the one compresses the pressure and the reflux currents. The said delivery of at least one portion of the said heating of the said liquefied natural gas 2 4. The process according to claim 5, where (a) such liquefied natural gas is heated and thereafter divided, at a minimum. The aforementioned fluid flow and the second flow, and (b) that cooling of the sequence compresses the pressure and reflux currents. The said delivery of at least one portion of the said heating of the said liquefied natural gas 2 5. The process pursuant to claim 6, where (a) such liquefied natural gas ron and thereafter is at least divided. The aforementioned 1st-order and second-order fluid flows, and (b) the cooling part one compresses the pressure and the reflux currents. It ships at least one portion of the said heating of the said liquefied natural gas.2 6. Process according to term 7, where (a) such liquefied natural gas is heated and thereafter divided, at a minimum. The aforementioned fluid flow of sequence and the second flow, and (b) such cooling of the sequence compresses the pressure and reflux currents. The said delivery of at least one portion of the said heating of the said liquefied natural gas 2 7. Procedures in accordance with Article 12, 13, 14, 15, 19, 20, 21 or No. 22, one of them is that (a) the said liquefied natural gas is heated and thereafter indicated as The least And (b) the cooling of the upper distillation current one compresses it and Such reflux fluid flows supply at least one part of the said heating of the gas. Such liquid nature 2 8. The process according to claim 16, where (a) such liquefied natural gas is heated and thereafter divided, at a minimum. And (b) that cooling of the upper distillation stream one compresses it and Such liquid reflux currents deliver at least one of the aforementioned heating of the gas. Such liquid nature 2 9. The process according to claim 17, where (a) such liquefied natural gas is heated and thereafter divided, at a minimum. And (b) that cooling of the upper distillation stream one compresses it and Such reflux fluid flows supply at least one part of the said heating of the gas. Such liquid nature 3 0. The process according to claim 18, where (a) such liquefied natural gas is heated and thereafter divided, at a minimum. And (b) that cooling of the upper distillation stream one compresses it and Such reflux liquid flows deliver at least one part of such heating of liquefied natural gas. 3 1. Process in accordance with Clause 1, 2, 3, 4, 8, 9, 10, 1 1, 12, 13, 14 15, 19, 20, 21 or No. 22. Where the said volatile gas residant is the main part of the said methane And the aforementioned C2 components 3 2. Process in accordance with claim 5, whereby such volatile gas residant is involved in The core of the mitane, the aforementioned C2 components 3 3. Process according to claim 6, whereby the aforementioned volatile gas resituents are involved in The principal of the said methane and the constituent C2 3 4. Process according to claim 7, whereby the aforementioned volatile gaseous resicu The methane core and the C2 components 3 5. Process according to claim 16, where such volatile gas residant has The main part of the said methane and the C2 component 3 6. Process according to claim 17, where such volatile gas residant has The main part of the said methane and the C2 component 3 7. Process according to claim 18, where such volatile gas residant has The main part of the said methane and the C2 component 3 8. Process according to claim 23, where such volatile gas residant has The main part of the said methane and the C2 component 3 9. Process according to claim 24, where such volatile gas residant has The main part of the said methane and the constituent C2 4 0. Process according to claim 25, where such volatile gas residant has The main part of the said methane and the C2 component 4 1. Process according to claim 26, where such volatile gas residant has The main part of the said methane and the C2 component 4 2. Process according to claim 27, where such volatile gas residant has The main part of the said methane and the C2 component 4 3. Process according to claim 28, where such volatile gas residant has The main part of the said methane and the C2 component 4 4. Process according to claim 29, where such volatile gas residant has The main part of the said methane and the C2 component 4 5. Process according to claim 30, where such volatile gas residant has The main part of the said methane and the C2 component --------------------------------------- -------------------------------------------------- ------------ Amendment 2/6/2016 (f) The second sequence compresses the said pressure is heated, with such heating it is delivered. At least one of the aforementioned refrigeration part of one or more of the aforementioned gas currents, the aforementioned primary gas currents, and the second order gas currents expand them.1 1. Process according to claim 9, where (a) such gas current is sufficiently cooled in partial condensation, (b) the partial condensate gas current is separated to provide a gas current. The aforementioned second-order vapors and the fourth-order vapors, (c) the second-order vapors, divided into, at least, the sequential vapor. One such And the aforementioned second-order gas current, (d) the aforementioned second-order gas flow expands to the aforementioned lower pressure, cooled, and then delivered to the distillation column at the center feed position Below the aforementioned second order, (e) the aforementioned volatile liquid stream heats sufficiently to vaporize current, with such heating delivered at least one of the aforementioned cooling part of one or more. The greater the flow of the gas, the current is the first such gas, and the second is the gas. The expansion, and (f) the second sequence compresses the said pressure, heats it, by heating it is delivered. At least one of the aforementioned cooling part of one or more of the aforementioned gas currents, the aforementioned gaseous currents, and the aforementioned secondary gases expand 1 2. The process for separating liquefied natural gas has been replaced. And components Hydrocarbons are heavier. And the current is a gas instead of And the hydrocarbon component is heavier Into a radical, volatile gas reside, has the main part of having such substitute And volatile liquid digestion Relatively few contain heavier hydrocarbon constituents, where (a) such liquefied natural gas is at least divided into first order liquid stream. And second order fluid flow, (b) the first flow expands to a lower pressure and afterwards delivered to the first distillation column at the upper middle feed position, (C). The second flow of liquid is sufficiently heated to At least some of the current turns into vapor, thus forming at least the current as first order vapor, (d) that first order vapor expands to such a lower pressure. And delivered to one such distillation column at the middle of the lower column one, (e) one upper distillation stream taken out of the area above the sequence distillation column. One such And pressurize until a higher pressure is obtained (f), the upper distillation current one is compressed, the pressure is sufficiently cooled to Condenses at least partly to the current and forms condensation, with such cooling Deliver at least one such heating portion of the aforementioned second-order liquid stream, (g) that condensation current is divided into at least volatile liquid stream and reflux liquid (h) current. The reflux liquid then cools, with the said cooling At least one such heating part of the aforementioned second-order liquid stream, (i) the subsequent reflux liquid stream is divided at least. One order reflux currents and second order reflux currents, (j) said one order reflux currents are supplied to the aforementioned distillation columns at The upper column feeder position, (k) the current as such a gas is divided at least, the current is the first-order gas and the second-order gas current, (i) the current is such a first-order gas, cooling to condense all significant. Of current and then expand until a second lower pressure is obtained with the subsequent cooling, (m) the current is a condensation gas, then significantly expanding it thereafter. Shipped to a second-order distillation column at the top-middle-column feeder, (n) the second-order gas flow expands to the aforementioned second-order lower pressure, cooled to at least partially condensed. , And after that ship to a column distillation Two such positions entered in the middle of the bottom column one, ------------------------------------- -------------------------------------------------- -------------------------------------------------- ---------------- 1. Process for the Separation of Liquefied Natural Gas with Methane And components Hydrocarbons are heavier and the current is a methane gas. And the hydrocarbon component is heavier The frog is a volatile residigas digester, and it is the main component of methane. And volatile liquid digestion First, the minor contains heavier hydrocarbon constituents, where (a) the said liquefied natural gas is least divided into sequential fluid flows. And the second-order fluid exposition, (b) the lower-chamber fluid flows and the lower pressure. And after The holding column is placed at the feeding position in the middle of the upper column one, (c) the second-order liquid bottle is sufficiently hot to at least evaporate the fibers. That is, at the very least, it forms a first order vapor, (d) that sequence vapor expands to such a lower pressure and is delivered. To the aforementioned distillation column at the feed position in the middle of the lower column one, (e) the current is the gaseous one, at least the current is the first order gas and the second order gas current, (f) the current is the first order gas. Such Cold to condensate is all important. The current and afterwards expand the hair, obtaining such a lower pressure. With the subsequent flow, (g) the current as a gas of the first order is concentrated significantly, then it is sent to the distillation column. At the feed position in the middle of the upper column second, (h) the aforementioned second gas current expands until It has a lower pressure. Cooled until at least partially condensed gas And after that ship to the said distillation column at the location Entered in the middle of the bottom two columns, (i) the upper distillation stream is taken from the upper area of the distillation column and is divided into at least one order. And the second order, with the first one compressing the pressure Until the pressure is higher. (j) One sequence is compressed by such pressure. Cool enough to at the very least Condensation part one, some And formed condensation with such cooling, supplying at least one portion of the heating of the aforementioned second-order liquid stream, (k) that condensation current is divided at least. At the most evaporating liquid flows and reflux, (1) the reflux tubes are then cooled. With such a cooling, deliver at least One such heating part of the aforementioned second-order fluid flow (m) the cold reflux is subsequently delivered to The aforementioned distillation column The upper column, (n) the evaporation liquid flows sufficiently heated to evaporate the current, with The heating is said. Deliver at least one portion of the said evening of one or More than just a gas is the first gas. And the second gas current expands as such (0), the second as the heating, the aforementioned heating thread. At least delivery At most one such cooling part of one or more of the first gaseous currents and the second gaseous currents expand them (p) the volatile liquid flows have turned into such vapors. And the second part heats them together to form the said volatile gas residant. It contains the main part of methane. And (q) volume and temperature Of the reflux current And the temperature of the said protective agent To the aforementioned distilled column It is effective in maintaining the upper temperature of the distillation column. At temperature, where the main part of the hydrocarbon component is heavier than that Brought back in the digestive substance Relatively less volatile matter by fractional distillation in the aforementioned distillation column 2. Process according to claim 1, (a) before being supplied to the said distillation column. The second gas cylinder expands until the pressure is lowered. And then after sufficient cooling in partial condensation (b) the second-order gas stream expands. It was raised to indicate a second and third flow, (c) a second aqueous flow. And after delivery of the aforementioned distillation column to the center of the second bottom column, (d) the heating of the stream is at least the said volatile liquid. The most part of such cooling Of one or more of the gas is one of the aforementioned gases, the currents are the second gases expanding, Kang said. And the current is the second order vapor, and (e) the aforementioned heating of at least one such second section Of the said cooling Of one or more of the current is the aforementioned gas, the current is the second order gas expanding. And the current is the second such vapor 3. The process according to claim 1, where (a) the second-order liquid crystal partially evaporates. Separate to provide such vapor and liquid streams, and (b) the flow of the said flux expands to such a lower pressure and thereafter delivered to the distillation column. At the entry position in the middle of the bottom column, sequence three 4. The process according to claim 1, where (a) the second fluid stream is partial such vapor. Were separated by providing The current is the first such vapor and the third liquid, (b) before being supplied to the distillation column. Where the current is the second order of gas expanding Add some of them This is separated by a second-order vapor and a fourth-order vapor, (c). Later cooled and then delivered to Such distillation column At the lower center of the second lower column, (d) the third flow of liquid expands to lower tonnes, and then is delivered to the distillation column. At the middle of the lower third of the column, (e) the liquid bottle above. Sent to the distillation column At the entry position The central column below the fourth order, (f) the heating of the aforementioned current is at least the said evaporative flux. The most part of such cooling Of the one or more of the current is the aforementioned gas, the second is the gas of the second. And the current is steam sequence And (g) the aforementioned heating of at least one of the aforementioned parts delivered. Of such cooling Of one or more of the gases is the aforementioned, second-order gas currents expand it. And the current is the second such vapor, 5. Process according to Article 1 or No. 3, where (a) the second part Is pressed to a higher pressure, (b) the second pressure is heated With such heating, at least one portion of the said cooling is delivered. One or more of the currents is a sequence gas. One such And show up as a second order gas that expands, and (c) volatile liquid glass as such And the second, the hot pressure, asks each other to form such volatile resin substrate 6. Procedures pursuant to Clause 2 or No. 4, where (a) the above and the two It is pressurized to a higher pressure, (b) the second pressure is heated. With such heating delivered At least one part of such a cooling Of one or more of the current Is sequence gas One such Gas is the second order of gas expansion thereof And the current is the second such vapor, and (c) the liquid current evaporates into that vapor. And second pressure, the pressure to heat the said concentrate to form the volatile gas reside substrate. Process according to claim 1 or 3, where (a) current is such a second gas. Cooling before expansion (b), the second part The ball presses until a higher pressure (c) can evaporate the liquid. It heats sufficiently to evaporate the current, with such heating Establish at least one such cooling part of one or more of the current as one such gas. The current is the aforementioned second-order gas, and the second-order gas expands it (d). With such heating, Jukk commanded at least one part of such cooling. Of one or more of the gas is the sequence gas. One such, the current is a second such gas. And the current is a second-order gas expands, and (e) the liquid stream is vaporized into such vapor, and the second is pressurized, causing it to combine to form a volatile gas resitient substrate. Said 8. Process according to claim 2, where (a) current is the aforementioned second gas. It is sufficiently cooled in partial current condensation, (b) the second-order gas that partially condenses. Was raised in order to provide The aforementioned second-order vapors and the third-generation liquids, (c) the second-order vapors. It expands to the aforementioned low pressure, then cools and then ships to the distillation column. At the bottom entry center of the second column thereof. (d) such third liquid flow It expands until the pressure is lowered and then delivered to the distillation column. In the middle of the bottom column number three. (e) the second mentioned part Press the pressure until the pressure is rising. (f) Such volatile liquid flows It heats sufficiently to vaporize current, with such heating delivers at least one of the aforementioned cooling parts of one or The greater of the current is the aforementioned gas, the second is the aforementioned gas, and the current is The second-order vapor expands as such (g) the second-order vapor heats the pressure. With such heating, at least one part of the request for such cooling is delivered. One or more of the currents is a sequence gas. One such, gas is the second such gas. And the high-order vapor flows that expand, and (h) that vapor evaporates liquid flows. And second, the hot pressure is combined to form a volatile gas residative substrate. 9. Process according to claim 4, where (a) the aforementioned second-order gas current is sufficiently cooled in partial condensation, (b) the second-order gas flow is partially isolated to Make a flow The second such cough And the aforementioned fourth fluid flow, (c) the second such vapor expands to the aforementioned lower pressure, cools down, and then is delivered to the low distillation cluster. The second lower center column feed position (d) the fluid flow with the four expands until The lower pressure was obtained and then delivered to the distillation column at the aforementioned fourth bottom column feeder, (c) the second counter pressurized until the pressure was reached. Higher, (f) Such volatile liquid gases are heated sufficiently to evaporate the current, too Such heating supplies at least one of the aforementioned cooling of one or The greater of the current is the aforementioned gas, the second is the aforementioned gas, and the current is The second-order vapor expands thereof, (g) the second-order compressed pressure heats it, with such heating delivered. At least one such cooling part of one or more of the currents is a sequence gas. One of the above, the aforementioned second-order gas currents, and the third-generation vapors expands, and (h) the volatile liquid flasks become such vapors. Such hot heat is combined to form such volatile gas reside substrate 1 0. Process according to claim 8, where (a) the gas is sufficiently cooled in partial condensation, (b) the partial condensate gas current is separated to provide current. It is the aforementioned second-order vapor and the aforementioned third-order liquid stream, (c) the aforementioned second-order vapor, at the very least, the gas of the sequence. One such And the aforementioned second-order gas current, (d) the second-order gas flow expands until The lower pressure was cooled, and then delivered to the distillation column at the aforementioned second center column feeder. (e) Such volatile liquid stream is sufficiently heated to vaporize the tar stream, by heating it to deliver at least one of the aforementioned cooling portion of one or more. More of the current is such a gas, the stream is one of the said gas, and the gas is a sequence of gases. Two sells the aforementioned, and (f) the second one compresses the said pressure heats, by heating it. At least one of the aforementioned cooling parts of one or more of the gas cylinders is such a gas. The current is the first such gas. And the current is a second order of gas expanding as 1 1. Process according to claim 9, where (a) the flask is sufficiently cooled in partial condensation, (b) the flask is a thin condensing gas. The section was separated to provide the aforementioned second-order vapor and the fourth-order liquid stream, (c) that second-order vapor flow, at least as a sequential gas. One such And the current is the aforementioned second-order gas, (d) the gas sequence of the gas expands to such a lower pressure, cools it, and then delivers it to the distillation column at the feed position. In the middle of the column below the second said. (e) Such a volatile liquid stream is sufficiently heated to the vaporization stream, with such heating it delivers at least one of the aforementioned cooling portion of one or more. The greater the flow of the gas, the current is the first such gas, and the second is the gas. The expansion, and (f) the second sequence compresses the said pressure, heats it, by heating it is delivered. At least one of the aforementioned cooling part of one or more of the aforementioned gas flows, the current is one such gas. And the current is a second order of gas expanding as 1 2. The process for separating liquefied natural gas has mitane. And components Hydrocarbons are heavier. And the current is mitane gas And the hydrocarbon component is heavier It is a volatile gas digestant, the main part of the mitaine and volatile liquid digestion. Rather, the main part of the hydrocarbon component is heavier than that, where (a) such liquid natural gas is divided into at least first-order fluid stream and second-order liquid stream, (b) liquid gas. The first flow of liquid was expanded to a lower pressure and then delivered to the first distillation column at the feed position in the middle of the upper column, (c) the second fluid flow was sufficiently heated at Will make At least some of the current is vaporized, therefore it forms at least one sequence vapor, (d) that sequence of vapor expands to such a lower pressure. And delivered to the aforementioned distillation columns at the lower center of the lower column one, (e) one upper distillation stream taken from the upper area of the sequence distillation column. One such And pressurized until a higher pressure is obtained, (f) the upper distillation current one is forced to cool it sufficiently to Condenses at least partly to the current and forms condensation, with such cooling Deliver at least one such heating portion of the aforementioned second-order liquid stream, (g) that condensation current is divided into at least volatile liquid stream and reflux liquid stream, (h). The reflux liquid was later cooled by such a cooling, delivered in an At least one such heating part of the aforementioned second-order liquid stream (i) the reflux fluid stream is subsequently cooled down to a minimum. One order reflux currents and one order reflux currents and second order reflux currents, (j) such one order reflux currents are delivered to the aforementioned distillation columns at The upper column feeder position (k). Such gas currents are divided into at least a first-order gas and a second-order gas current (1). All major current and then expand to a second lower pressure, with the subsequent cooling down, (m) the current as a condensation of the first gases. To the second-order distillation column at the upper-middle-column feed-in position, (n) the gas-chamber and the two are expanded until the aforementioned second lower pressure is achieved. It was cooled until at least partially condensed gas. And after that ship it to a sequential distillation column The second reflux current is delivered to the aforementioned second-order distillation column, (o). Top column feed position (p) The second upper distillation stream is brought out from the upper layer of the second condensing column, (q). Is vapor, with such heating delivered at least one part of such cooling of one or The greater of the current is the aforementioned gas and the current is the second-order gas expanding, (r) the aforementioned upper-order second-order condensate, by such heating Deliver at least one portion of the aforementioned cooling of one or more of the gas cylinder. One such order And the current as a second order gas expands as such, the volatile liquid (s) has become Such cough and Second-order upper distillation stream The aforementioned heating is combined to form the aforementioned volatile gaseous resin substrate with the main part thereof, (t) the lower one from the aforementioned distillation column and the lower order fluid. Two of the aforementioned distillation columns combine to form volatile liquid digestion. Relatively less, and (u) the volume and temperature of the reflux cans. And the aforementioned first and second temperatures of the aforementioned feed substances into the first distillation column. And the second is effective. Maintaining the upper temperature of the first order distillation column. And the aforementioned second order at temperature by section The main component of the heavier hydrocarbons is recovered in the volatile liquid digester. Relatively less is the fractional distillation in the first distillation column. And number two as mentioned 1 3. Process according to claim 12, where (a) before being supplied to the aforementioned second distillation column, the gas was a second order. Some of the condensation expansion was carried out to provide a second fume. And the third (b) fluid flows, the second is the vapor that then cools. And thereafter shipped to the aforementioned second distillation column at the aforementioned lower column feeder location, (c) the third liquid glass to the aforementioned second distillation column. The feed position in the middle of the lower second column, (d) the heating of the current is at least the said volatile liquid. At most one such cooling part of one or more of the aforementioned gas currents, the aforementioned second-order gas, and the aforementioned second-order vapor stream, (e) heating. The aforementioned of the aforementioned upper distillation, the second order was delivered in At least one of the aforementioned cooling part of one or more of the current is a single sequence gas. As mentioned, gas is the second order of gas that is expanding, and gas is the second such gas 1 4. The process according to claim 12, where (a) the second-order liquid stream becomes partially vaporized to provide a One such vapor and sequential fluid stream; And (b) such third liquid flow Expand until the pressure is lowered that number one And then delivered to one of the aforementioned distillation columns At the input position in the middle of the bottom column second 1 5. Process according to claim 12, where (a) the second liquid stream is partially vaporized to provide a diffuse effect. And the third fluid flow, (b) the flow of the third lower pressure. And after Delivered to one such column. At the feed position in the middle of the second lower column, (c) before being supplied to the aforementioned second-order distillation column, the stream is the second order gas Some of the aforementioned condensers were raised to provide second-order vapor and fourth-degree liquids, (d) such second-order steams, later cooled and then arranged. Send to The aforementioned second-order distillation columns at the aforementioned lower-center-column feeder, (e) the fourth-fluid-flow is delivered to the aforementioned second-order distillation columns at The feed position in the middle of the second lower column, (f) the aforementioned heating of the current is at least the said volatile liquid delivered. At most, one of the aforementioned cooling of one or more of the currents is the aforementioned gas; (g) that heating of the aforementioned second-order upper distillation currents delivered as At least one of the aforementioned cooling part of one or more of the currents is a first-order gas. As mentioned, the current is the aforementioned second-order gas, and the second-order vapor, 1 6. Process according to claim 12 or 14, where (a) the second upper distillation current compresses the pressure to a higher pressure, (b) the upper distillate flow, the compression sequence heats it. , With heating It ships at least one part of the aforementioned cooling or more of the current. And (c) the volatile liquid flows become such vapors and the upper secondary distillation currents. Compresses such heating pressures together to form volatile gas substrate 1 7. Process in accordance with claim 13 or No. 15 where (a) the second upper distillation current is compressed to a higher pressure, (b) the second upper distillate compresses this pressure. Hot, by heating It ships at least one of the aforementioned cooling parts of one or more of the streams. It is the aforementioned gas, the second order gas current expands, and the second order vapor stream (c) the volatile liquid stream becomes that vapor and the upper secondary distillation current. Compresses such heating pressure to form volatile gas residants 1 8. Process according to claim 12 or article 14 where (a) such second-order gas is cooled before such expansion, (b) the upper distillation current of such a compression. Pressure until a higher pressure is achieved, (c) such a volatile liquid stream heats sufficiently to vaporize, with such heating delivered at least part of the cooling of the One or More than that of gas is one such gas. Gas is the second such gas, and is The second-order gas expands, (d) the second-order upper flue compresses the pressure to heat, by heating. It ships at least one of the aforementioned cooling parts of one or more of the streams. It is the aforementioned gas, the aforementioned second-order gas stream, and the second-order vapor flow, and (e) the volatile liquid stream becomes that vapor and the upper secondary distillation current. Compresses such heating pressures together to form volatile gas hydrolysis 1 9. Procedure according to Term 13, where (a) current is such a second gas. Cool it sufficiently for some condensation. (b) Gas is a second-order gas, partially condensed. The loop was raised in order to provide a flow. The aforementioned second and the aforementioned liquid streams, (c) the second-order vapor expands until the aforementioned second-order low-pressure, Cool down, and then ship to the aforementioned second distillation column at the center input position. (D) the aforementioned third-order fluid flow expands the aforementioned secondary pressure. And thereafter delivered to the aforementioned second-order distillation column at the aforementioned middle-column bottom-feed position, (e) the second upper-flow pressurized to a higher pressure, (f) fluid flow. Such evaporators are heated sufficiently to the vaporization current, with such heating delivered at least one of the aforementioned cooling parts of one or more. The greater of the current is the aforementioned gas, the second is the aforementioned gas, and the current is The second-order vapor sells the aforementioned, (g) the second-order upper distillation stream compresses the pressure to heat it, by giving the The aforementioned heating delivers at least one of the aforementioned cooling parts of one or more of The current is the first such gas, the second that the current is the second vapor. It expands, and (h) the evaporation liquid crystal has become such a vapor. And the second upper distillation stream The pressurized heating is combined to form a volatile gas substrate of such volatile gas 2 0. Process according to claim 15, where (a) such second-order gas current is sufficiently cooled to condense the current. Is a partial gas, (b) current is a second-order gas, some of that condensation is separated to form a current as The second vapors and the fourth fluid stream, (c) the second vapors expands to the aforementioned second low pressure, cooled and then transported to the column. Refine the aforementioned second at the input position in the middle of the column. Below the aforementioned order, (d) the fourth liquid stream sells itself until it attains a second lower pressure, and After that, it is delivered to the aforementioned second distillation column at the center input position of the second bottom column. (e) Such a second upper distillation current compresses the pressure to a higher pressure, (f) the volatile liquid stream heats sufficiently to vaporize the stream, with such heating delivered as At least one such cooling part of one or The greater of the current is the aforementioned gas, the second is the aforementioned gas, and the current is Second-order vapor sells such a vapor, (g) the second-order upper distillation compresses the pressure, heating it by It ships at least one of the aforementioned cooling parts of one or more of the streams. It is the aforementioned gas, the aforementioned second-order gas stream, and the second-order vapor flow, and (h) the volatile liquid stream becomes that vapor and the upper secondary distillation current. Compresses such heating pressure together to form volatile gas residants 2 1. Process according to claim 19, where (a) such gas is cooled only in partial condensation to the current, (b) the partial condensate gas stream is separated to provide The aforementioned second-order vapor and the aforementioned third-order liquid currents, (c) the aforementioned second-order vapor currents, divided into, at least, the sequence-gas streams. (D) The aforementioned second gas flow expands to the aforementioned second lower pressure, cooled, and thereafter delivered to a second distillation column. As mentioned at the position entered in the middle of the column. Below one of the aforementioned, (e) a such volatile liquid stream heats sufficiently to vaporize, \ 'by heating the cascade to at least part of the cooling. Such one or More of the current It is such a gas, gas is one such gas. And the current is a sequence gas Two such expansions, and (f) the second upper current compresses such pressure, heating, by heating. It ships at least one of the aforementioned cooling parts of one or more of the streams. It is such a gas, the current is the first such gas, and the second is the second gas. 2 2. Process according to claim 20 where (a) the gas stream is sufficiently cooled in partial condensation to the current, (b) the partial condensation gas current is separated to provide a Sequence cough The aforementioned two and a fourth liquid stream, (c) the aforementioned second-order vapor flow, divided into at least the sequence gas current One such And the current is the aforementioned second gas, (d) the aforementioned second gas current sells itself until the aforementioned second lower pressure, cools down, and thereafter delivered to the aforementioned second distillation column Position entered in the middle of the column Below one of the aforementioned, (e) such a volatile liquid stream heats sufficiently for the vaporization stream, with such heating delivered at least one of the aforementioned cooling part of one or The greater of the current is the said gas, the current is the first such gas, and the current is the sequence gas. Two such expansions, and (f) the second-order upper distillate compresses such pressure, heating, by heating. It is ordered at least one of the aforementioned cooling parts of one or more of the current. It is the aforementioned gas, the aforementioned gas current, and the second-order gas current expanding 2 3. Process according to any Clause 1,2,3,4,8,9,10 or Article 11, where (a) the said liquefied natural gas is heated and thereafter divided at a minimum. The aforementioned liquid flows of first order and the second fluid flows, and (b) that cooling of the one compresses the pressure and the reflux currents. The said delivery of at least one portion of the said heating of the said liquefied natural gas 2 4. The process according to claim 5, where (a) such liquefied natural gas is heated and thereafter divided, at a minimum. The aforementioned fluid flow and the second flow, and (b) that cooling of the sequence compresses the pressure and reflux currents. The said delivery of at least one portion of the said heating of the said liquefied natural gas 2 5. The process pursuant to claim 6, where (a) such liquefied natural gas ron and thereafter is at least divided. The aforementioned 1st-order and second-order fluid flows, and (b) the cooling part one compresses the pressure and the reflux currents. It ships at least one portion of the said heating of the said liquefied natural gas.2 6. Process according to term 7, where (a) such liquefied natural gas is heated and thereafter divided, at a minimum. The aforementioned fluid flow of sequence and the second flow, and (b) such cooling of the sequence compresses the pressure and reflux currents. The said delivery of at least one portion of the said heating of the said liquefied natural gas 2 7. Procedures in accordance with Article 12, 13, 14, 15, 19, 20, 21 or No. 22, one of them is that (a) the said liquefied natural gas is heated and thereafter indicated as The least And (b) the cooling of the upper distillation current one compresses it and Such reflux fluid flows supply at least one part of the said heating of the gas. Such liquid nature 2 8. The process according to claim 16, where (a) such liquefied natural gas is heated and thereafter divided, at a minimum. And (b) that cooling of the upper distillation stream one compresses it and Such liquid reflux currents deliver at least one of the aforementioned heating of the gas. Such liquid nature 2 9. The process according to claim 17, where (a) such liquefied natural gas is heated and thereafter divided, at a minimum. And (b) that cooling of the upper distillation stream one compresses it and Such reflux fluid flows supply at least one part of the said heating of the gas. Such liquid nature 3 0. The process according to claim 18, where (a) such liquefied natural gas is heated and thereafter divided, at a minimum. And (b) that cooling of the upper distillation stream one compresses it and Such reflux liquid flows deliver at least one part of such heating of liquefied natural gas. 3 1. Process in accordance with Clause 1, 2, 3, 4, 8, 9, 10, 1 1, 12, 13, 14 15, 19, 20, 21 or No. 22. Where the said volatile gas residant is the main part of the said methane And the aforementioned C2 components 3 2. Process in accordance with claim 5, whereby such volatile gas residant is involved in The core of the mitane, the aforementioned C2 components 3 3. Process according to claim 6, whereby the aforementioned volatile gas resituents are involved in The principal of the said methane and the constituent C2 3 4. Process according to claim 7, whereby the aforementioned volatile gaseous resicu The methane core and the C2 components 3 5. Process according to claim 16, where such volatile gas residant has The main part of the said methane and the C2 component 3 6. Process according to claim 17, where such volatile gas residant has The main part of the said methane and the C2 component 3 7. Process according to claim 18, where such volatile gas residant has The main part of the said methane and the C2 component 3 8. Process according to claim 23, where such volatile gas residant has The main part of the said methane and the C2 component 3 9. Process according to claim 24, where such volatile gas residant has The main part of the said methane and the constituent C2 4 0. Process according to claim 25, where such volatile gas residant has The main part of the said methane and the C2 component 1. Process according to claim 26, where such volatile gas residant has The main part of the said methane and the C2 component 2. Process according to claim 27, where such volatile gas residant has The main part of the said methane and the C2 component 3. Process according to claim 28, where such volatile gas residant has The main part of the said methane and the C2 component 4. Process according to claim No. 29, where such volatile gas residant has The main part of the said methane and the C2 component 5. Process according to claim 30, where such volatile gas residant has The main part of the said methane and the C2 component.