초록 ▼

The fossil fuel processing apparatus of the present disclosure includes two pressure vessels, or two separators, above a single vessel footprint area in a vertically stacked configuration. The stacked configuration permits the processing of gas to occur in a space having less length and less width t

The fossil fuel processing apparatus of the present disclosure includes two pressure vessels, or two separators, above a single vessel footprint area in a vertically stacked configuration. The stacked configuration permits the processing of gas to occur in a space having less length and less width than that of two separators arranged tip-to-end or side-by-side, respectively. The first and second separators are configured to separate fuel from non-fuel in a footprint area of a single gas separator as the fuel moves from upstream to downstream through a gas processing system. Further, the gas processing apparatus of the present disclosure permits the two separators to fit in a housing compartment that is more easily transportable via tractor-trailer.

대표청구항 ▼

1. A heat exchanger on a fossil fuel processing assembly comprising: a container defining a plurality of distinct fluid filled chambers;a plurality of heat sources equal to the number of fluid filled chambers, wherein one heat source is disposed within one chamber; anda plurality of heat exchanging

1. A heat exchanger on a fossil fuel processing assembly comprising: a container defining a plurality of distinct fluid filled chambers;a plurality of heat sources equal to the number of fluid filled chambers, wherein one heat source is disposed within one chamber; anda plurality of heat exchanging pipelines equal to the number of fluid filled chambers, wherein one pipeline is submerged within in fluid inside one chamber and the pipelines bounding fossil fuel flowing therethrough. 2. The heat exchanger of claim 1, wherein only one heat source is disposed within only one fluid filled chamber. 3. The heat exchanger of claim 1, wherein the fluid in each chamber does not mix with fluid from another chamber. 4. The heat exchanger of claim 1, wherein each one of the plurality of heat exchanging pipelines is fed independently from a different fuel source. 5. The heat exchanger of claim 1, further comprising a vertical sidewall aligning the plurality of distinct chambers in a directly vertical stacked configuration. 6. The heat exchanger of claim 5, further comprising: a central plane, wherein each one of the plurality of heat sources intersects the imaginary central plane; and wherein the plurality of heat sources are aligned in a directly vertical stacked configuration. 7. The heat exchanger of claim 6, a serpentine configuration of the heat exchanging pipeline within each fluid filled chamber. 8. The heat exchanger of claim 1, further comprising three fluid filled chambers, three heat sources, and three heat exchanging pipelines. 9. The heat exchanger of claim 1, wherein each one of the plurality of heat exchanging pipelines includes: a plurality of pre-heat pipe segments connected fluidly in series including an ultimate pre-heat segment; anda plurality of expansion pipe segments connected fluidly in series including an initial expansion segment;wherein the ultimate pre-heat segment is fluidly coupled upstream to the initial expansion segment. 10. The heat exchanger of claim 9, wherein the number of pre-heat pipe segments is in a range from 4 to 8. 11. The heat exchanger of claim 10, wherein the number of expansion pipe segment is equal to the number of pre-heat pipe segments. 12. The heat exchanger of claim 9, wherein the ultimate pre-heat segment is offset and aligned coplanar with the initial expansion segment. 13. A heat exchanger on a fossil fuel processing assembly comprising: a first endwall opposite a second endwall defining a longitudinal direction therebetween, a first sidewall opposite a second sidewall defining a transverse direction therebetween, and a top wall opposite a bottom wall defining a vertical direction therebetween;a first partition wall extending transversely between the first and second sidewalls and extending longitudinally between the first and second endwalls;wherein the first and second endwalls, the first and second sidewalls, the top wall, and the first partition wall define a first chamber;a second partition wall below the first partition wall extending transversely between the first and second sidewalls and extending longitudinally between the first and second endwalls;wherein the first and second endwalls, the first and second sidewalls, the first partition wall, and the second partition wall define a second chamber below the first chamber;wherein the first and second endwalls, the first and second sidewalls, the second partition wall, and the bottom wall define a third chamber below the first and second chambers;a first fluid at least partially filling and bound in the first chamber;a second fluid at least partially filling and bound in the second chamber;a third fluid at least partially filling and bound in the third chamber;wherein the first, second, and third fluids are similar formulations but do not mix;a first heat source at least partially submerged in the first fluid in the first chamber;a second heat source at least partially submerged in the second fluid in the second chamber;a third heat source at least partially submerged in the third fluid in the third chamber;a first heat exchanging pipeline submerged in the first fluid in the first chamber having a plurality of parallel segments connected together by transitional segments forming a general serpentine configuration, the first heat exchanging pipeline defining a portion of a first fossil fuel flow pathway from a first fuel source, and including a plurality of pre-heat pipe segments serially connected adjacent the first heat source adapted to warm fossil fuel fluidly moving through the pre-heat pipe segments and a plurality of expansion pipe segments serial connected in downstream fluid communication with the plurality of pre-heat pipe segments adapted to permit fossil fuel expansion therein as the fossil fuel fluidly moves through the expansion pipe segments;a second heat exchanging pipeline submerged in the second fluid in the second chamber having a plurality of parallel segments connected together by transitional segments forming a general serpentine configuration, the second heat exchanging pipeline defining a portion of a second fossil fuel flow pathway from a second fuel source, and including a plurality of pre-heat pipe segments serially connected adjacent the second heat source adapted to warm fossil fuel fluidly moving through the pre-heat pipe segments and a plurality of expansion pipe segments serially connected in downstream fluid communication with the plurality of pre-heat pipe segments adapted to permit fossil fuel expansion therein as the fossil fuel fluidly moves through the expansion pipe segments; anda third heat exchanging pipeline submerged in the third fluid in the third chamber having a plurality of parallel segments connected together by transitional segments forming a general serpentine configuration, the third heat exchanging pipeline defining a portion of a third fossil fuel flow pathway from a third fuel source, and including a plurality of pre-heat pipe segments serially connected adjacent the third heat source adapted to warm fossil fuel fluidly moving through the pre-heat pipe segments and a plurality of expansion pipe segments serially connected in downstream fluid communication with the plurality of pre-heat pipe segments adapted to permit fossil fuel expansion therein as the fossil fuel fluidly moves through the expansion pipe segments.