EP1835987A2 - Autoklav - Google Patents

Autoklav

Info

Publication number
EP1835987A2
EP1835987A2 EP05813463A EP05813463A EP1835987A2 EP 1835987 A2 EP1835987 A2 EP 1835987A2 EP 05813463 A EP05813463 A EP 05813463A EP 05813463 A EP05813463 A EP 05813463A EP 1835987 A2 EP1835987 A2 EP 1835987A2
Authority
EP
European Patent Office
Prior art keywords
waste
treatment apparatus
autoclave
waste treatment
steam
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP05813463A
Other languages
English (en)
French (fr)
Inventor
Paul Burrows
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Estech Europe Ltd
Original Assignee
Estech Europe Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from GB0425686A external-priority patent/GB2421688B/en
Priority claimed from GB0425684A external-priority patent/GB0425684D0/en
Application filed by Estech Europe Ltd filed Critical Estech Europe Ltd
Publication of EP1835987A2 publication Critical patent/EP1835987A2/de
Withdrawn legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L11/00Methods specially adapted for refuse
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2/00Methods or apparatus for disinfecting or sterilising materials or objects other than foodstuffs or contact lenses; Accessories therefor
    • A61L2/02Methods or apparatus for disinfecting or sterilising materials or objects other than foodstuffs or contact lenses; Accessories therefor using physical phenomena
    • A61L2/04Heat
    • A61L2/06Hot gas
    • A61L2/07Steam
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J3/00Processes of utilising sub-atmospheric or super-atmospheric pressure to effect chemical or physical change of matter; Apparatus therefor
    • B01J3/002Component parts of these vessels not mentioned in B01J3/004, B01J3/006, B01J3/02 - B01J3/08; Measures taken in conjunction with the process to be carried out, e.g. safety measures
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J3/00Processes of utilising sub-atmospheric or super-atmospheric pressure to effect chemical or physical change of matter; Apparatus therefor
    • B01J3/03Pressure vessels, or vacuum vessels, having closure members or seals specially adapted therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J3/00Processes of utilising sub-atmospheric or super-atmospheric pressure to effect chemical or physical change of matter; Apparatus therefor
    • B01J3/04Pressure vessels, e.g. autoclaves

Definitions

  • the present invention relates to a steam supply joint for an autoclave and an autoclave incorporating such a steam joint, particularly but not exclusively to provide a autoclave for treating waste.
  • waste material It is known to process municipal and household waste, and also some commercial waste and industrial waste which can be included in municipal waste, by treating the waste material in an autoclave.
  • the waste material is introduced into an autoclave which is a closed pressure vessel, and is subjected to saturated steam at an appropriate pressure and temperature, typically of at least 3 bar and above 130 0 C.
  • an appropriate pressure and temperature typically of at least 3 bar and above 130 0 C.
  • the waste material is sterilised making it safe to handle.
  • organic material within the waste material such as fibres, plant matters, paper and the like is broken down to form a mass of small cellulose particles.
  • labels and printings on metal waste, glass and plastic bottles are removed and any plastic items such as bottles reduce in size.
  • the resulting material can be easily sorted to remove recyclable items, the cellulose particles may be used in a variety of different applications, and the remaining fraction which is sent to landfill will be less than about 20% of the original mass of waste material.
  • the process of treating waste material in an autoclave has thus many advantages.
  • the supply of heated and pressurised steam to the autoclave requires a great deal of energy particularly over a sustained period.
  • the autoclave itself is a large and consequently heavy piece of equipment: a typical autoclave able to take 20 tons of waste will be 20 meters long by 3 meters in diameter.
  • the autoclave is typically pivotally mounted and is raised to receive material waste and lowered during the treatment process and to permit removal of the treated waste from the autoclave. This requires an appropriately powerful lifting mechanism which must be able to support the autoclave and resist substantial sideways forces as a result of the rotation of the autoclave.
  • Some further disadvantages of the present method is that where an autoclave is loaded and unloaded through a common opening to the autoclave, there is a risk of cross contamination between treated and untreated waste material.
  • the loading process can also be time consuming, for example where a conveyor is used to transfer waste into the autoclave through the autoclave mouth.
  • An aim of the invention is to reduce or overcome one or more of the above problems.
  • an autoclave may comprise a pressure vessel having a first mouth part to receive waste material and a second mouth part to discharge treated material, wherein the autoclave is rotatable at a longitudinal axis to agitate the waste material during treatment and to discharge waste material from the autoclave.
  • the first mouth part may be closeable by a first door and the second mouth part may be closeable by a second door.
  • the pressure vessel has a plurality of steam outlet pipes located within the pressure vessel and a steam supply joint for supplying steam to the steam outlet pipes.
  • the doors may comprise a plurality of channels for connection to the steam outlet pipe to supply steam thereto.
  • a rotary steam joint is located on the door and is connectable to a steam supply source and to the pipes provided on the door.
  • the autoclave may be held at a fixed angle relative to the horizontal during the supply of waste treatment, the treatment of the waste material and discharge of the waste material.
  • the apparatus may comprise a loading apparatus for an autoclave, the loading apparatus comprising a waste holding part to receive waste, the waste holding part having an outlet receivable in an autoclave and a transfer apparatus to eject waste from the waste holding part through the outlet.
  • the outlet may comprise an end part of the waste holding part and the waste holding part may be moveable to locate the outlet in the autoclave.
  • the waste holding part may comprise a closeable vessel and the loading apparatus may comprise a packing device for compressing the waste.
  • the waste holding compartment may comprise a gate closeable to separate the outlet from the waste holding part to permit the waste to be compressed.
  • the packing device may comprise a piston moveable in the waste holding part.
  • the transfer apparatus may comprise a piston moveable in the waste holding part.
  • the transfer apparatus and the packing device may comprise the same piston.
  • the waste holding part may comprise a closeable inlet spaced from the outlet to receive for waste.
  • the loading apparatus may comprise a locating part to engage an end part of the autoclave.
  • the waste treatment apparatus may further comprise a discharge conveyor to receive treated waste from the autoclave.
  • the autoclave may comprise a helix located within the pressure vessel, the helix having a first helix part relatively distant from the mouth and a second helix part relatively close to the mouth, wherein the second helix part has a smaller pitch than the first helix part.
  • the helix may be fixed to the pressure vessel.
  • the autoclave may further comprise a third helix part located alongside the second helix part and having a smaller pitch than the second helix part.
  • the pitch of the helix may vary continuously.
  • the helix may have a plurality of parts, each part having a fixed pitch.
  • the autoclave may be rotatable about its longitudinal axis in a first direction to receive waste material and in a second direction to discharge waste material.
  • the first door and the second door may be located at opposite ends of the pressure vessel on the longitudinal axis of the pressure vessel.
  • the steam supply joint may comprise a manifold joint for connection to the pressure vessel for rotation therewith and connectable to the plurality of steam outlet pipes within the autoclave a supply connection comprising a steam supply channel, and an outlet element connected to the supply connection to supply steam from the steam supply channel to the manifold, the outlet element and the manifold being operable to supply steam to a subset of the plurality of steam outlet pipes.
  • the manifold may have an inlet comprising a plurality of channels connectable to the plurality of steam outlet pipes, and wherein the outlet element at least one aperture to permit flow connection between the supply channel and at least one of the plurality of manifold channels.
  • the subset of the plurality of steam pipes may be located in a lower part of the autoclave.
  • the subset of the plurality of steam outlet pipes may be located in a lower section of the autoclave.
  • the steam supply joint may comprise a fixed support wherein the manifold is rotatable relative to the fixed support.
  • the supply connection and the outlet element may be rotatable relative to the fixed support.
  • the fixed support may comprise a stop element to limit rotation of the supply connection relative to the fixed support.
  • the steam supply joint may comprise an air vent channel extending from the outlet element to a vent wherein the outlet element has an aperture to connect the air vent channel to the manifold.
  • the manifold and outlet element may be arranged to connect the air vent channel to at least one steam outlet pipe in the upper part of the autoclave.
  • the air vent channel may comprise part of the supply connection.
  • a support sleeve may be connected to the manifold, wherein a part of the slide connection is received within the support sleeve and wherein a bearing is mounted between the support sleeve and the fixed support.
  • the support may have a steam inlet in flow connection with the steam supply channel.
  • the steam supply joint may be connected to the autoclave at one end thereof at the longitudinal axis.
  • the pressure vessel may be inclined at an angle of 2° to 10° to the horizontal.
  • the second mouth part may comprise a frusto-conical part, the frusto-conical part having a cone angle in the range 5° to 15°.
  • the apparatus may comprise drive means to rotate the autoclave about its longitudinal axis.
  • FIG. 1 is a side view of an autoclave embodying the present invention
  • FIG 2 is a diagrammatic view of a steam supply joint provided on the autoclave of Figure 1 ,
  • Figure 3 is a section on line 3 - 3 of Figure 2
  • Figure 4 is a view of part of Figure 3 on a larger scale
  • Figure 5 is a partial cross section in greater detail of a steam supply joint embodying the present invention
  • Figure 6 is a partial section on line 6 - 6 of Figure 5
  • Figure 7 is a section through a part of the steam supply joint of Figure 5
  • Figure 8 is an alternative configuration of the view of Figure 7.
  • Figure 9 is an illustration of the interior of the autoclave of Figure 1.
  • Figure 10 is a diagrammatic view of a loading apparatus
  • Figure 11 is a diagrammatic view of the loading apparatus of Figure 10 in a first stage of operation
  • Figure 12 is a diagrammatic view of the loading apparatus of Figure 10 in a second stage of operation
  • Figure 13 is a diagrammatic view of the loading apparatus of Figure 10 in a third stage of operation
  • Figure 14 is a diagrammatic view of the loading apparatus of Figure 10 in a fourth stage of operation
  • FIG. 15 is a diagrammatic view of a further autoclave embodying the present invention.
  • Figure 16 is an illustration of the interior of the autoclave of Figure 15,
  • Figure 17 is a parcel section through a door of the autoclave of Figure 15
  • Figure 18 is a partial section through another door of the autoclave of Figure 15
  • Figure 19 is a cross-sectional view of an alternative door for the autoclave of Figure 15,
  • FIG 20 is an illustration of an example locking system for the autoclave of Figure 15,
  • Figure 21 is a section through a steam joint of the autoclave of Figure 15,
  • Figure 22 is a diagrammatic view of a loading apparatus similar to the loading apparatus of Figure 10 for use with the autoclave of Figure 15.
  • an autoclave is generally shown at 10 provided with a pressure vessel 11 closed at one end with a pressure tight door 12.
  • the pressure vessel 11 is supported on an inclined bed plate 13, in this example inclined at an angle of 3° to 8° along its length, and is held in place on the bed plate 13 by appropriate supports 14.
  • the pressure vessel 11 has a longitudinal axis generally illustrated by line X-X, and is rotatable about the axis in the supports 14 by a motor 16 acting on a driving part generally shown at 17.
  • the pressure vessel 11 has a central generally cylindrical part 18 which extends over the majority of the length of the pressure vessel 11 , an end part 19 at the opposite end of the pressure vessel 11 to the door 12, and a frusto-conical mouth part 20, the end of which is closed by the door 12.
  • a steam supply joint is shown generally indicated at 30, and will be discussed in more detail hereinafter.
  • the steam supply joint 30 is connected by a pipe 31 to a source of steam (not shown).
  • the steam supply joint assembly 30 is moveable relative to the bed plate 13 and is provided with an expansion joint 32 in the pipe 31 to accommodate internal movement.
  • the interior of the pressure vessel 11 comprises a plurality of steam outlet pipes generally shown at 21 , arranged at regular intervals around the interior of the pressure vessel 11.
  • Each steam outlet pipe 21 is connected to the steam supply joint 30 as described hereinafter to supply steam to the interior of the pressure vessel 11.
  • each steam and outlet pipe 21 is provided at intervals on its length with nozzles 22 comprising inserts and is supported by welded side flanges 23 welded to a base plate 24 which is attached to the interior of the pressure vessel 11.
  • the inserts 22 are of a hard material to reduce wear and are threaded to allow removal and replacement to adapt the nozzles to required operating conditions.
  • the sacrificial base plate 24 allows the pipes 21 to be attached to and removed from the interior of the pressure vessel 11 , for example for repair or replacement, without needing to work on the pressure vessel 11 itself, while the side flanges 23 allows each steam supply pipe 21 to act as a lifter to agitate, lift and drop the waste material within the pressure vessel 11 as it rotates.
  • the steam joint 30 is operable such that steam is only supplied to the steam outlet pipes 21 in the lower part of the pressure vessel 11 , and preferably to only those steam outlet pipes 21 disposed in the sector generally indicated at B where the waste material will fall.
  • the steam supply joint 30 is provided with a steam supply pipe 32, a fixed support 33, a manifold 34 mounted on the pressure vessel 11 to rotate therewith and connectable to each of the steam outlet pipes 21 , and a supply connection 35 which is connected to the steam supply pipe 32.
  • the supply connection 35 comprises a steam supply channel 36 and an air supply channel 37 connected to an air vent 38, and has an outlet part 39 to connect the steam supply channel 36 and air vent channel 37 to the manifold 34.
  • the air from the air vent 38 may be treated using ultraviolet light, to breakdown volatile organic compounds and remove odours from the air stream.
  • the supply connection 35 comprises exterior wall 40 and an inner wall 41 which are substantially co-axial except at an end point 42 where the interior wall 41 is offset in a direction towards the exterior wall 40.
  • the air vent channel 37 is defined by the space between the interior wall 41 and exterior wall 40, whilst the steam supply channel 36 is defined by the interior of the inner wall 41.
  • the inner wall 40 and outer wall 41 are connected at one end to an end section 43 which has a flange 43a which closes the air vent channel 37.
  • the end part 43 extends towards the steam supply pipe 32 and comprises a seal 44 located between the end part 43 and the fixed support 33.
  • the outer wall 40 is provided with apertures 45 which connect the air vent channel 37 to an outlet chamber 46 connected to the air vent pipe 38.
  • the supply connector 35 is connected to an outlet part 39, in this example comprising a hardened steel disc 50.
  • the hardened steel disc 50 as illustrated in Figure 6 comprises a first aperture of generally arcuate shape which is in flow connection with the steam supply channel 36.
  • the outlet element 50 also comprises a plurality of air vent apertures 52 which are in flow communication with the air vent channel 37 of the supply connector 35.
  • the manifold 34 as illustrated in Figure 2, is connected to the steam outlet pipes 31 through a plurality of channels generally shown at 53.
  • FIG. 6 These channels are shown at 53 in Figure 6 and it will be apparent that the effect of the outlet element 50 is to blank off some of the channels 53, connect some of the channels 53 via the steam supply aperture 51 to the steam supply channel 36, and connect a plurality of channels 53 through the air vent apertures 52 to the air vent channel 37.
  • a carbon seal 54 is disposed between the outlet element 50 and a hardened steel face plate 55 of the manifold 34 to provide a sliding seal there between.
  • a piston 56 and carbon seal 57 are disposed gradually outwardly of the outer wall 40 adjacent the outlet element 50 and defining a volume 58 there between.
  • a bleed channel 59 connects the steam supply channel 36 to the space 58, urging the seal 57 to the left and the piston 56 to the right as seen in Figure 5, thus acting to urge the output element 50 into engagement with the seal 54, and the seal 54 into engagement with the front plate 55.
  • the manifold 34 further comprises a support plate 60 which has a flange 61 at an edge thereof.
  • a support sleeve 62 is provided with a flange 63 at a end thereof.
  • a clamp ring 64 clamps flanges 61 , 63 together and so holds the support sleeve 62 in a fixed manner relative to the support plate 60.
  • the fixed support 33 comprises a bearing support ring 70 and roller bearings 71 are located between the bearing support 70 and an end part of the support sleeve 62 to rotatably support the support sleeve 62.
  • Part of the supply connection 35 is received within the support sleeve 62 and is rotatable relative thereto.
  • a seal 72 is located between the support sleeve 62 and the outer wall 40 of the supply connection 35 to provide a sliding seal between the supply connection 35 and the support sleeve 62.
  • the supply connection 35 is thus rotatable relative to the fixed support 33, and seals 73 are provided to give a sliding seal between the fixed support 33 and the outer wall 40 of the supply connection 35.
  • a stop element 74 is mounted on the fixed support 33 to engage a projecting part 75 on the supply connection 35, in this case provided on the flange 43.
  • An appropriate number of stop elements 74 and projections 75 are provided with appropriate locations to provide the maximum desired range of rotation to the supply connection 35. This permits some lost motion movement of the supply connection 35.
  • the steam supply joint 30 thus operates as follows. When waste material has been placed in the pressure vessel 11 and the door 12 closed, steam is supplied from the steam supply pipe through the steam supply channel 36. Steam is supplied to the volume 58, thus acting on the seal 57 and piston 56 to urge the outlet element 50, seal 54 and face plate 55 of the manifold 34 into engagement. As the pressure vessel 11 rotates in direction A as shown in Figure 3, the frictional engagement between the outlet element 50, seal 54 and base plate 55 will cause the supply connection 35 to rotate in the same direction until a projection 75 hits the stop element 74. The outlet aperture 51 of the connection element 54 will thus be rotated in a broadly clockwise direction as shown in Figures 3 and 6.
  • the manifold 34 will rotate with the pressure vessel 11 , and so the channels 53 of the manifold 34 will be rotated into and out of flow communication with the steam supply channel 36 via the aperture 51.
  • the steam will only be supplied to the steam outlet pipes 21 in the sector B as shown in Figure 3, thus only supplying steam where it passes through the waste material 25 and not injecting steam into the volume above the waste material 25.
  • steam is only supplied where it can pass through the waste material 25, optimising heat transfer to the material within the pressure vessel 11 , the use of steam by the autoclave 10 is much more efficient and the energy requirements are reduced accordingly.
  • the supply connection 35 need not be rotatable relative to the fixed support 33, but may be fixed such that it only supplies the appropriate sector B or C for the c given direction of the rotation of the pressure vessel 11.
  • FIG. 7 A part of the manifold is shown in more detail in Figure 7, where the channel 53 is shown passing through the manifold 34 and has an outlet connection 80 at one end to connect to a steam outlet pipe 21.
  • the manifold shown at 57 has a recess 81 in its front phase to receive the front plate 55 and a threaded bolt hole 82 to receive an appropriate bolt.
  • the manifold 34 is welded to the pressure vessel 11 as shown in 83.
  • the manifold 34 is shown integrally provided, with the exception of the base plate 55. It will be apparent that the manifold may alternatively be provided in a variety of sections as shown in Figure 8 and assembled by any appropriate means as desired.
  • steam joint 30 may be used in other applications, and not merely to supply steam to an autoclave as desired herein.
  • an internal helix structure 90 projecting from the interior of the pressure vessel 11 is provided.
  • This helix structure 90 may be provided by one of the supply pipes 21 , or may be a separate structure in itself.
  • the pressure vessel is shown generally at 11 , with the cylindrical body, end section and frusto conical mouth part illustrated at 18, 19 and 20 respectively.
  • the helix structure is shown at 90 extending around the interior of the cylindrical body 18. In this example, the helix structure 90 extends all the way up the frusto-conical mouth part 20.
  • the helix structure 90 provides an appropriate driving force towards the mouth of the pressure vessel 11 , and in particular to urge the waste material up the slope of the frusto-conical end part 20.
  • the helix structure 90 comprises a plurality of helix parts 91 , 92, 93 of progressively smaller pitch.
  • the pitch of the helix in this case refers to the longitudinal distance of the pressure vessel 11 that it would take the helix part to perform a complete rotation.
  • the shortening pitch of the helix structure 90 may be achieved by any appropriate configuration, such as a consistently decreasing pitch over the length of the pressure vessel 11 or, as in the present example, having successive of the helix parts where each helix part is of a consistent pitch.
  • the helix structure 90 may have only a single part in each length of the pressure vessel 11 , or, as in the present example, two helix parts 92, 93 may extend along the same part of the pressure vessel 11 such that at least part of the length of the pressure vessel 11 has two or more helix parts.
  • the cylindrical middle part 18 has an overall length of about 10 metres.
  • the first helix part 91 has a pitch of about 10.8 metres, and so the half rotation shown here extends for about 5.4 metres of the length of the middle part 18.
  • the second helix part 92 has a pitch of about 9 metres, and again this example performs a half turn extending along about 4.5 metres of the middle section 18.
  • the third helix part 93 has a pitch of about 6 metres and in this example extends alongside the second helix part 92 and completes a half turn extending over a length of about 3 metres into the frusto-conical mouth part 20.
  • the angle of the frusto-conical mouth part 20 may be of any appropriate angle, but it has preferably a relatively small inward slope of around 5° to 15°.
  • the helix structure must drive the treated waste material up the internal slope of the frusto-conical end part 20 at an angle to the horizontal in the range 7° to 25°.
  • the increasing pitch of the helix structure 90 and the co-extending helix parts 91 , 92 towards the frusto-conical end part 20 act to provide suitable sufficient driving force to drive the waste material out of the mouth 20 by rotation of the pressure vessel 11 alone. This thus removes the need to provide the autoclave 10 with lifting apparatus to lift the pressure vessel 11 and thus greatly reduces the engineering and material requirements of the autoclave 10.
  • the loading apparatus 100 comprises a waste holding part 110 to receive waste, in the present example comprising a generally cylindrical vessel.
  • the waste holding part has an outlet 111 which is receivable in the mouth part 20 of the autoclave 10.
  • the outlet 111 in the present example comprises an end part of the waste holding part 110, although any other appropriate outlet shape or configuration might be provided, as an attachment to the waste holding part 110 or otherwise.
  • the waste holding part 110 has an inlet 112 to receive waste loaded into a receiving hopper 113 and closeable with a door 114.
  • the inlet 112 is located at the end of the waste holding part 110 distant from the outlet 111.
  • a gate 115 is provided moveable between an open and a closed position by a mechanism generally shown at 116.
  • the gate 115 is shown as a vertically moveable barrier which is moveable downwardly to close the waste holding part 110, but any other gate mechanism may be provided as appropriate.
  • a piston 117 is provided moveable within the waste holding part 110 and driven by a pneumatic or hydraulic cylinder 118.
  • the piston 117 acts both as a packing device, to compress waste within the waste holding part 110, and also acts as a transfer apparatus to eject waste from the waste holding part 110 through the outlet 111.
  • a piston bypass opening 119 allows the escape of fluid from the waste holding part 110 and the clearing of material from behind the piston 117 if needed.
  • the waste holding part 110 is supported on appropriate moveable supports to permit longitudinal movement of the waste holding part 110 between a loading position, where the outlet 111 is received in the autoclave 10, and a withdrawn position where the outlet 111 is withdrawn from the autoclave 10.
  • a locating part 121 is provided mounted on the outlet 111 to engage the edge of the mouth part 20 of the autoclave 10 and to ensure that the outlet 111 is correctly received and aligned within the autoclave 10.
  • a discharge apparatus comprising a discharge conveyor 130 is located below the mouth 20 of the autoclave 10 to receive waste expelled from the autoclave 10 by rotating the autoclave 10 in an appropriate direction.
  • a cover 131 is provided located over the discharge conveyor 130 when the waste handling part 110 is in the loading position. The cover 131 is moveable to uncover the discharge conveyor 130 when the outlet 111 is withdrawn from the autoclave 10, whether by a direct connection between the loading apparatus 100 and the cover 131 as illustrated at 132, or otherwise.
  • the waste treatment apparatus is generally shown as being provided with a firewall 140 which separates a waste reception area generally shown at 141 and a waste treatment area generally illustrated at 142.
  • the waste holding part 110 passes through an appropriate hole 143 in the firewall 140 and a fire sealing element 144 surrounds the waste holding
  • the waste holding part 110 is in its withdrawn position, such that the outlet 110 is withdrawn from the autoclave 10 and the gate 115 is in its closed position to separate the withholding part 110 from the outlet 11.
  • the cover 131 is withdrawn from the discharge conveyor 130 so that the autoclave may at this stage be discharging waste from a previous treatment cycle whilst the next load of waste to be treated is prepared using the loading apparatus 110.
  • the inlet 112 is open and waste generally shown at 133 is lowered into the hopper 113 by an appropriate loading device 134. The waste 133 falls through the hopper 113 and inlet 112 into the waste holding part 110.
  • the cylinder 118 is operated to move the piston 117 to the left as shown in Figure 12 to compress the waste material 133 against the gate 115.
  • the piston 117 is then withdrawn to the right to permit additional waste to be introduced as shown in Figure 11 , and the packing process as shown in Figure 12 is then performed again.
  • the loading apparatus 100 may include, for example, a weighing device to measure the weight of material held in the waste holding part and indicate when a full load has been reached, or any other indication may be used as desired.
  • a weighing device to measure the weight of material held in the waste holding part and indicate when a full load has been reached, or any other indication may be used as desired.
  • the waste holding part 110 is moved longitudinally on its supports 120 to the left as shown in Figure 13 until the outlet 111 is received in the mouth 20 of the autoclave 10.
  • the cover 131 moves to cover the discharge conveyor 130.
  • the locating part 121 engages the outside of the mouth part 120 of the autoclave 10 to correctly locate and position the outlet 111 , and also to close the mouth 20 of the autoclave 10.
  • the gate 115 is then lifted by the drive mechanism 116 and the piston 117 moves to the left to urge the waste to the left and eject it through the outlet 111 into the autoclave 10.
  • the autoclave 10 may be rotated in an appropriate direction during this loading phase to distribute the waste material within the autoclave 10.
  • the piston 117 has a sufficient stroke to eject all of the waste 133 from the waste holding part 110.
  • the gate 115 is closed and the waste holding part 110 is moved to the right to its withdrawn position to begin the. loading process again.
  • the autoclave 10 is closed by closing the mouth with the autoclave door, for example as discussed herein before, and the waste within the autoclave 10 is then treated.
  • the discharging and loading cycle is repeated.
  • the loading apparatus as described herein allows faster loading of the autoclave 10 than conventional conveyor systems as a complete load is assembled in advance, and may be assembled while the autoclave 10 is treating a previous load of waste.
  • the loading apparatus can transfer the entire load to the autoclave in a single relatively quick operation. Because the waste is held in a waste holding part which is a closed vessel, the end gate of which is only open for transfer of the waste when the outlet part 111 is received within the autoclave 10, the possibility of untreated waste spilling or falling out and contaminating the treated waste discharge and handling apparatus is considerably reduced.
  • the longitudinal movement of the waste holding part 110 allows operation of the loading apparatus 100 through a fire wall thus permitting the waste receiving and treatment parts of the waste handling apparatus to be separated with a consequent reduction in fire risk and contamination risk.
  • the outlet 111 is further designed to fit into the mouth of the autoclave without coming into contact with the helixes of the autoclave, so that that autoclave 10 can be rotated during loading.
  • the autoclave 10 includes both the pressure vessel 11 with the helix structure 90 and steam joint 30 to provide an advantageous combination
  • the autoclave 10 may be provided with any other steam supply joint as appropriate, for example through the door 12 in known manner, and equally the steam supply joint 30 may be used on any other type of autoclave, including autoclaves that are pivotally lifted and lowered to receive waste material and remove the treated waste material.
  • the autoclave 10 may further be provided with a door at each end if desired. Where a door is located at each end, untreated waste material may be loaded through one door and treated waste removed through the other. This permits the separation of treated and untreated waste and helps ensure the sterility of the treated waste.
  • An autoclave having a door at each end is shown in more detail in Figures 15 onwards.
  • An autoclave is shown at 200 having a pressure vessel 201.
  • the pressure vessel 201 comprises a cylindrical body 218, end section 219 having a first mouth part and frusto-conical end part 220 having a second mouth part.
  • the pressure vessel 201 in like manner to the pressure vessel of figures 1 to 14, is disposed with its longitudinal axis X-X inclined at an angle, in the present example in the range of 2 degrees to 10 degrees, but in this embodiment the autoclave is oriented such that the frusto-conical end part 220 is located at the downwardly directed end of the pressure vessel 201 , in the opposite configuration to the arrangement of the autoclave 10 of Figures 1 to 14.
  • the first mouth part is closed with a first pressure tight door 212 and at the other end the second mouth part is closed with a second pressure tight door 213.
  • the autoclave 200 is located on a bed plate 213 and is supported thereon by appropriate supports 214, 215.
  • the autoclave is rotatable about its longitudinal axis X-X by a motor 216 acting on a driving mechanism generally shown at 217.
  • the pressure vessel 201 is similarly provided with an internal helix structure 290 projected from the interior of the pressure vessel.
  • the helix structure 290 is provided with a plurality of helix parts 291 , 292, 293 of progressively smaller pitch in like manner to the helix structure shown in Figure 9.
  • the helix structure may alternatively have any number of helix parts, pitches or otherwise as desired.
  • each helix part comprises a suitably configured sparge pipe of similar design to that shown at 21 in Figure 4, although of course the helix structure 290 may be provided separately from any sparge pipes as desired.
  • the structure of the door 202 is shown in more detail in Figure 17.
  • the end part 219 is provided with a neck section 230 which has an annually extending flange 231.
  • An out of skirt 232 of the door 202 extends alongside the flange 231 and a seal 233 is held between the door 202 and flange 231.
  • a mesh guard 234 is located on the inner surface of the door 202 and protects rotating joint 235 from interacting with the material within the autoclave 201.
  • the neck 230 in this example comprises a forged element which is attached to the end part 219 by a weld generally shown at 236, but it may be provided integrally or otherwise as desired.
  • the door 203 is held in place by a locking system generally shown at L, which engages the flange 231 in this example.
  • Door 203 is shown in partial section in Figure 18 in more detail.
  • the frusto-conical end part 220 is provided with a steam connection collar generally shown at 240.
  • the steam connection collar 240 is attached to the frusto-conical mouth part 220 by a weld 241 and provides an outwardly extending flange 242 and a generally cylindrical inner part 243.
  • the collar 242 has a plurality of channels 244 passing there through for connection to a plurality of steam outlet pipes or sparge pipes as illustrated here at 245. Each channel 244 connects to an annular gallery 246 which opens on an end surface 247 of the collar 242.
  • the door 203 has a generally cylindrical outer part 250 which extends around the edge of the collar 242.
  • a closure face 251 of the door 203 is located to abut the surface 247 of the collar 242 and trap seals 252, 253 therebetween.
  • the door 203 has channels 255 located therein to which are attached pipes 256 leading to a steam joint on a centre line of the door 203.
  • the door 203 and collar 242 are providing with locating elements (not shown) such that the door 103 engages the collar 242 in such a position that each pipe 255 is connected to a corresponding channel 244 to supply steam to a sparge pipe 245.
  • the steam joint is shown diagrammatically on Figure 15 at 260 connected via pipe 261 to a steam supply (not shown).
  • Door 202 is also provided with a rotary joint 235.
  • the rotary joint may be used to introduce steam into the pressure vessel 201 without passing the steam through the sparge pipes 245, to raise the pressure and/or temperature within the pressure vessel 201.
  • the rotary joint 235 may also serve as a vent or exhaust to reduce or control the pressure within the pressure vessel 201.
  • a door generally shown at 203' is provided connectable to an end part 240', but in this embodiment the channels 255' are provided located within the door 203' and connect to channels 244' in the neck part 244' to provide steam to sparge pipes 245'.
  • a locking mechanism is shown by way of example in Figure 20.
  • the flange 242 at an edge part thereof is provided with a latch generally shown at 264 which is received within an internally directed channel 265 provided on the face of the skirt 250.
  • the locking mechanism may of course be provided if any or each of doors 202, 203, 203' or any other locking mechanism may be provided as desired.
  • An example of a rotary steam joint is shown in Figure 21. In operation, when the door 203 is in place and clamped to the autoclave 201 and the autoclave 207 is rotating, the door 203 will rotate with the autoclave. To supply steam to the interior of the autoclave 201 , a rotating steam joint is provided, generally shown at 300 in Figure 21.
  • the steam supply joint comprises a fixed outer case 301 having a first part 302 and a second part 303 bolted together.
  • Received within the other case 301 is an air vent pipe 304 which is fixedly connected at one end 305 to the door 203, and at its other end is supported within the second part 302 by a rotating joint generally illustrated at 306.
  • the vent pipe 304 includes a flange 307 which engages seals generally shown at 308 to provide a sliding seal and support the vent pipe 304.
  • a spring mechanism 309 maintains the seal 308 and flange 307 in engagement.
  • the interior of the pipe 304 is in flow communication with a vent connection 210 provided as part of the second part 302.
  • a steam supply pipe 311 is shown fixedly engaged at one end
  • the second part 303 further defines an annular channel 216 which is in flow communication with the steam supply pipe 311 and supplied with steam through an appropriate inlet 317.
  • An appropriate steam supply apparatus is provided connected to the inlet 317 and vent 310 of the autoclave 301 to supply steam thereto and receive vented air and vapour there from.
  • the steam joint 260 may comprise a steam joint with lost motion as described above with reference to figures 5 and 6 to direct steam to only the lowermost sparge pipes.
  • the steam supply pipe 311 is connectable to one or more pipes 156 to supply steam to the sparge pipes 245.
  • a loading mechanism is shown at 400 similar to the loading mechanism of Figures 11 to 14.
  • the loader is operable to introduce the waste into the upper end of the autoclave, through the end part 219 and the mouth of the neck part 230, and omits the discharge conveyor 130 and fire wall 140 of the mechanism of Figures 11 to 14.
  • Waste material is introduced into the hopper 401 and is posted by piston 402 into the autoclave in similar manner of the loading apparatus 100. Unlike the loading apparatus 100, the waste material is not compacted by the piston 402 prior to being pushed into the pressure vessel 201.
  • a barrier 403 and a seal 404 between the barrier 403 and autoclave 200 serves to separate the untreated and treated-waste-handling parts of the apparatus to avoid contamination of the treated waste.
  • the loading apparatus 400 is operated as follows.
  • the door 202 is opened and the loader 400 used to introduce waste into the pressure vessel 201 of the autoclave 200.
  • Door 202 is closed and locked and steam introduced through the steam joint 300 and through the door 203 as shown in Figure 18 into the sparge pipes 245 around the pressure vessel 201.
  • the pressure vessel 101 is rotated such that the helical structure 290 acts to lift waste towards the end 219 and away from the frusto-conical mouth section 220 as indicated by arrow A in Figure 16. Gravity will act to draw the waste back down towards the frusto-conical mouth section 220, thus ensuring continuous mixing and movement of the waste material within the pressure vessel 101.
  • the waste in the pressure vessel 201 may be treated at a pressure and for such time as appropriate, for example at 5 - 7 bar and 160°C - 170 0 C for 30 minutes.
  • the pressure and steam in the pressure vessel 201 is released through the steam joint 260 and appropriate steam supply mechanism, and door 203 opened.
  • the helical structure 290 will act to push the treated waste towards the frusto- conical end part 220 and out on to the waste handling part 294 which will carry the waste to a sorting plant or mechanism.
  • the autoclave as described herein is advantageous in that no rocking or tilting mechanism is required and the pressure vessel 101 is simply rotated about a longitudinal axis. As such, the mechanical reliability of the system is enhanced and the autoclave 201 is cheaper and simpler to build and operate.
  • By providing two doors to the autoclave introducing untreated waste through one door and dispelling treated waste through the other door, clean and treated waste are kept segregated and thus avoid the possibility of cross- contamination.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Organic Chemistry (AREA)
  • Animal Behavior & Ethology (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • General Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Epidemiology (AREA)
  • Apparatus For Disinfection Or Sterilisation (AREA)
  • Processing Of Solid Wastes (AREA)
  • Mixers Of The Rotary Stirring Type (AREA)
EP05813463A 2004-11-23 2005-11-23 Autoklav Withdrawn EP1835987A2 (de)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
GB0425686A GB2421688B (en) 2004-11-23 2004-11-23 Waste Treatment Apparatus
GB0425684A GB0425684D0 (en) 2004-11-23 2004-11-23 Autoclave
GB0503215A GB0503215D0 (en) 2004-11-23 2005-02-16 Autoclave
PCT/GB2005/004497 WO2006056768A2 (en) 2004-11-23 2005-11-23 Autoclave

Publications (1)

Publication Number Publication Date
EP1835987A2 true EP1835987A2 (de) 2007-09-26

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Application Number Title Priority Date Filing Date
EP05813463A Withdrawn EP1835987A2 (de) 2004-11-23 2005-11-23 Autoklav

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WO (1) WO2006056768A2 (de)

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Publication number Priority date Publication date Assignee Title
US7968057B2 (en) 2004-11-23 2011-06-28 Estech Europe Limited Autoclave
WO2008136718A1 (en) 2007-05-07 2008-11-13 Sanciflex Ab Apparatus for treating material comprising pressure vessel with drum rotatably arranged inside
GB0801787D0 (en) 2008-01-31 2008-03-05 Reclaim Resources Ltd Apparatus and method for treating waste
WO2010042213A1 (en) * 2008-10-10 2010-04-15 Estech, Llc Solid waste compression loading and waste treatment apparatus and method
GB2465144A (en) * 2008-11-04 2010-05-12 Sterecycle Ltd Process for the treatment of materials in a vessel with a compacting stage and an additional loading step
US20100135851A1 (en) * 2008-12-01 2010-06-03 Estech, Llc Waste treatment autoclave to provide for steam - assisted drying
GB201001375D0 (en) * 2010-01-28 2010-03-17 Aerothermal Group Plc Apparatus and process for treating municipal solid waste
ITTO20111089A1 (it) 2011-11-28 2013-05-29 Fater Spa Apparecchiatura e procedimento per il riciclaggio di prodotti sanitari assorbenti
ITTO20111091A1 (it) * 2011-11-28 2013-05-29 Fater Spa Apparecchiatura e procedimento per il riciclaggio di prodotti sanitari assorbenti
ITTO20111092A1 (it) * 2011-11-28 2013-05-29 Fater Spa Apparecchiatura e procedimento per il riciclaggio di prodotti sanitari assorbenti

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US4844351A (en) 1988-03-21 1989-07-04 Holloway Clifford C Method for separation, recovery, and recycling of plastics from municipal solid waste
US4974781A (en) 1989-03-09 1990-12-04 The Placzek Family Trust Method and apparatus for preparing paper-containing and plastic-containing waste materials for component fraction separation

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IT1190287B (it) * 1986-05-05 1988-02-16 Ivo Straffi Macchina enologica polivalente per la vinificazione e la spumantizzazione
US5941468A (en) * 1998-01-22 1999-08-24 Sterile Technology Industries, Inc. Waste treatment apparatus and method
IES20001006A2 (en) * 2000-12-14 2002-07-10 Gerry Hodgins a waste material sterilizing and size reduction apparatus

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US4844351A (en) 1988-03-21 1989-07-04 Holloway Clifford C Method for separation, recovery, and recycling of plastics from municipal solid waste
US4974781A (en) 1989-03-09 1990-12-04 The Placzek Family Trust Method and apparatus for preparing paper-containing and plastic-containing waste materials for component fraction separation

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WO2006056768A3 (en) 2006-08-10
WO2006056768A9 (en) 2006-10-05

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