US2020270751A1PendingUtilityA1
Enclosed-channel reactor system with conduit plate
Est. expiryDec 18, 2035(~9.4 yrs left)· nominal 20-yr term from priority
Inventors:Tsong-Pyng PerngChi-Chung KeiChien-Pao LinMrinalini MishraSheng-Hsin HuangKuang-I LiuYu-Hsuan Yu
C23C 16/45502C23C 16/45559C23C 16/45544
58
PatentIndex Score
0
Cited by
0
References
0
Claims
Abstract
An enclosed-channel reactor system is provided, which includes: a reactor body having a plurality of enclosed channels therein; an upper cap disposed at one end of the reactor body and having an inlet port communicating with the plurality of enclosed channels; a lower cap disposed at the other end of the reactor body opposite to the upper cap and having an outlet port communicating with the plurality of enclosed channels; and at least a conduit plate disposed between the upper cap and the reactor body for guiding a precursor injected from the inlet port into the plurality of enclosed channels uniformly.
Claims
exact text as granted — not AI-modified1 - 30 . (canceled)
31 . An enclosed-channel reactor system, comprising:
a reactor body disposed with a plurality of enclosed channels; an upper cap disposed at one end of the reactor body, and having an inlet port communicating with the plurality of enclosed channels; a lower cap disposed at the other end of the reactor body and opposite to the upper cap, and having an outlet port communicating with the plurality of enclosed channels; at least two O-rings disposed between the reactor body and the upper cap and between the reactor body and the lower cap, respectively, for enhancing a sealing tightness; a first conduit plate disposed between the upper cap and the reactor body; and a convergence plate disposed between the upper cap and the first conduit plate for guiding a precursor injected from the inlet port into the first conduit plate and the plurality of enclosed channels uniformly, wherein the first conduit plate comprises:
a first plate body having a first upper surface and a first lower surface opposite to the first upper surface;
a plurality of first through holes penetrating the first upper surface and the first lower surface of the first plate body; and
a plurality of first conduits concavely formed on the first upper surface of the first plate body,
wherein the convergence plate comprises:
a convergence plate body having an upper surface and a lower surface opposite to the upper surface;
a convergence through hole positioned at a center of the convergence plate body and penetrating the upper surface and the lower surface of the convergence plate body in an axial direction; and
at least two or more convergence conduits communicating with the convergence through hole and formed on the upper surface of the convergence plate body of the convergence plate extending linearly from an edge of the convergence plate to the convergence through hole in a lateral direction,
wherein the convergence through hole and the convergence conduits of the convergence plate communicate with the inlet port of the upper cap and the first through holes and the first conduits of the first conduit plate, and the axial direction is perpendicular to the lateral direction, and wherein the convergence conduits on the upper surface of the convergence plate body of the convergence plate corresponds in position to the inlet port of the upper cap, and the inlet port is opened in a direction parallel to an axial direction of the upper cap.
32 . The enclosed-channel reactor system of claim 31 , wherein the first conduit plate further comprises a circular conduit formed on the first upper surface of the first plate body thereof, and corresponding in position to the inlet port of the upper cap and communicating with the plurality of first conduits.
33 . The enclosed-channel reactor system of claim 31 , wherein the plurality of first conduits are parallel to the first upper surface of the first plate body.
34 . The enclosed-channel reactor system of claim 31 , wherein the plurality of first conduits are arranged in a radial manner.
35 . The enclosed-channel reactor system of claim 31 , wherein the plurality of first conduits are arranged in a fishbone manner.
36 . The enclosed-channel reactor system of claim 31 , further comprising a second conduit plate, which comprises:
a second plate body having a second upper surface and a second lower surface opposite to the second upper surface; a plurality of second through holes penetrating the second upper surface and the second lower surface of the second plate body; and a plurality of second conduits concavely formed on the second upper surface of the second plate body; wherein the second conduit plate is disposed between the first conduit plate and the reactor body, and the number of the second conduits of the second conduit plate is greater than the number of the first conduits of the first conduit plate.
37 . The enclosed-channel reactor system of claim 31 , wherein the inlet port is opened in a direction parallel to a radial direction of the upper cap.
38 . The enclosed-channel reactor system of claim 31 , wherein the first conduit plate comprises:
a plate body having an upper surface and a lower surface opposite to the upper surface; a through hole penetrating the upper surface and the lower surface of the plate body; and a plurality of conduits concavely formed on the lower surface of the plate body, and each having one end communicating with a corresponding one of the plurality of enclosed channels of the reactor body and the other end communicating with the through hole, such that the plurality of conduits are arranged in a radial or fishbone manner.
39 . The enclosed-channel reactor system of claim 38 , wherein the through hole is positioned at a center of the plate body of the first conduit plate.
40 . The enclosed-channel reactor system of claim 38 , wherein each of the conduits has a depth that decreases gradually from the end communicating with the through hole toward the end communicating with the corresponding one of the plurality of enclosed channels.
41 . The enclosed-channel reactor system of claim 38 , wherein the first conduit plate further comprises a conduit formed on the upper surface of the plate body thereof, and the conduit communicates with the through hole and extends outwardly from the through hole in an arc shape.
42 . The enclosed-channel reactor system of claim 38 , wherein at least two conduits are formed on the upper surface of the plate body of the first conduit plate, and extend linearly from an edge of the first conduit plate to the through hole.
43 . The enclosed-channel reactor system of claim 41 , wherein the conduit on the upper surface of the plate body of the first conduit plate corresponds in position to the inlet port of the upper cap.
44 . The enclosed-channel reactor system of claim 43 , wherein the inlet port is opened in a direction parallel to an axial direction of the upper cap.
45 . The enclosed-channel reactor system of claim 43 , wherein the inlet port is opened in a direction parallel to a radial direction of the upper cap.
46 . The enclosed-channel reactor system of claim 38 , further comprising a second conduit plate, which comprises:
a plate body having an upper surface and a lower surface opposite to the upper surface; a plurality of through holes penetrating the upper surface and the lower surface of the plate body; and a plurality of conduits concavely formed on the upper surface of the plate body; wherein the second conduit plate is disposed between the first conduit plate and the reactor body, and the number of the conduits of the second conduit plate is greater than the number of the conduits of the first conduit plate.
47 . The enclosed-channel reactor system of claim 38 , further comprising a convergence plate, which comprises:
a plate body having an upper surface and a lower surface opposite to the upper surface; and a through hole positioned at a center of the plate body and penetrating the upper surface and the lower surface of the plate body; wherein the convergence plate is disposed between the upper cap and the first conduit plate.Cited by (0)
No later patents cite this yet.
References (0)
No backward citations on record.