公开(公告)号：US5849181A

公开(公告)日：1998-12-15

申请号：US867049

申请日：1997-06-02

Applicant: Joseph Gordon Monteith

Inventor： Joseph Gordon Monteith

IPC: B01D17/02 ,  B01D21/00 ,  E03F5/04 ,  E03F5/10 ,  B01D71/02 ,  C02G1/40

CPC classification number: E03F5/0401 ,  B01D17/0208 ,  B01D21/0036 ,  B01D21/0024 ,  B01D2221/12

Abstract: An improved catch basin is constituted by a cylindrical container with a partition dividing the internal volume into a lower compartment and an upper compartment. The partition includes an intake region and an outlet region, each communicating with a vertical pipe extending downwardly from the partition and opening into the lower treatment chamber at an intermediate location therein, the intake region and the outlet region being diametrically opposite one another. The partition defines a central, oblique ramp which urges entering liquid in the direction of the intake opening of the intake region. Thus, under conditions of low liquid flow into the catch basin, all entering liquid will be directed to the intake region, descending along the intake conduit and into the lower compartment. Conversely, under conditions of high liquid flow into the catch basin, a portion of the liquid will overrun the ramp and gain direct access to the outlet region, from which it will exit the catch basin.

Abstract translation: 改进的容器槽由具有将内部容积分成下部隔室和上部隔室的分隔件的圆柱形容器构成。 所述分隔件包括进气区域和出口区域，每个所述进气区域和出口区域均与从所述分隔件向下延伸并在其中间位置处开放到下部处理室的垂直管道连通，所述进气区域和所述出口区域彼此沿直径相对。 隔板限定了一个中心的倾斜斜坡，其推动在进气区域的进气口方向上进入液体。 因此，在液体流入捕集池的低液体条件下，所有进入的液体将被引导到进气区域，沿进气管道下降并进入下部舱室。 相反，在液体流入捕集池的高液体条件下，液体的一部分将超过斜坡，并直接进入出口区域，从该区域出口区域将从该区域出口。

公开(公告)号：US06371690B1

公开(公告)日：2002-04-16

申请号：US09731045

申请日：2000-12-07

Applicant: Joseph Gordon Monteith

Inventor： Joseph Gordon Monteith

IPC: B01D2100

CPC classification number: E03F5/101 ,  B01D17/00 ,  B01D17/0208 ,  B01D17/0211 ,  B01D17/0214 ,  B01D21/0036 ,  E03F5/106 ,  E03F5/16

Abstract: A liquid-handling installation utilizes an upstream and a downstream separator unit, each unit having a horizontal partition defining a treatment compartment below the partition and an overflow compartment above the partition. Each unit has an inlet opening and an outlet opening. Two conduits communicate the outlet opening of the upstream unit with the inlet opening of the downstream unit. The operating process includes: a) dividing first and second substantially equal streams any liquid arriving ay the inlet opening of the upstream unit; passing the first stream through the upstream unit treatment compartment, thence along the first conduit, thence over the downstream unit partition to the outlet opening of the downstream unit, and simultaneously passing the second stream over the upstream unit partition, thence along the second conduit, thence through the downstream unit treatment compartment, and finally to the outlet opening of the downstream unit; and b) when the total arriving liquid is greater than can be accommodated by the two treatment compartments, allowing the liquid to overflow all weirs and partitions and pass directly from the upstream inlet opening to the downstream outlet opening

Abstract translation: 液体处理装置利用上游和下游分离器单元，每个单元具有在分隔壁下方限定隔室处的处理隔室的水平隔板和隔板上方的溢流隔室。 每个单元具有入口开口和出口开口。 两个管道将上游单元的出口与下游单元的入口连通。 操作过程包括：a）分离第一和第二基本上相同的流，任何到达上游单元的入口的液体; 使第一流通过上游单元处理室，从而沿着第一管道，然后通过下游单元隔板到下游单元的出口开口，同时使第二流通过上游单元隔板，然后沿着第二管道， 然后通过下游单元处理室，最后到下游单元的出口; 和b）当总到达液体大于两个处理隔室可容纳的液体时，允许液体溢出所有堰和隔板并且直接从上游入口通向下游出口

公开(公告)号：US6068765A

公开(公告)日：2000-05-30

申请号：US276827

申请日：1999-03-26

Applicant: Joseph Gordon Monteith

Inventor： Joseph Gordon Monteith

IPC: B01D21/00 ,  E03F11/00 ,  B01D21/02

CPC classification number: E03F11/00 ,  B01D21/0003 ,  B01D21/0036 ,  B01D2221/12

Abstract: A separator tank for rain water and waste-water treatment includes a container divided by a divider into an upper by-pass compartment and a lower treatment compartment. The divider includes a drop pipe assembly having a tapered cross-section. The drop pipe assembly includes a drop pipe having a T-shaped connection. For assembly, the drop pipe is lowered down through an opening in the divider and forms a friction fit with the opening. The drop pipe assembly also optionally includes an appropriately sized flow restricting plate positioned over the opening in the divider.

Abstract translation: 用于雨水和废水处理的分离罐包括由分隔器分成上旁通室和下处理室的容器。 分隔器包括具有锥形横截面的下降管组件。 落管组件包括具有T形连接的下落管。 为了组装，下降管通过分隔件中的开口向下降下并与开口形成摩擦配合。 落管组件还可选地包括位于隔板中的开口上方的适当尺寸的流动限制板。

公开(公告)号：US5725760A

公开(公告)日：1998-03-10

申请号：US642651

申请日：1996-05-03

Applicant: Joseph Gordon Monteith

Inventor： Joseph Gordon Monteith

IPC: E03F5/14 ,  E03B3/03 ,  E03F5/16 ,  B01D21/02

CPC classification number: E03F5/16 ,  E03B3/03

Abstract: A tank interceptor for rain water and waste-water includes a container divided by a partition into an upper by-pass compartment and a lower treatment compartment. An inlet and outlet for the container are located in the side wall adjacently above the partition. The partition defines a raised weir which constrains liquids entering at low flow rates to pass downwardly through an adjacent opening through the partition, to collect in the treatment compartment below the partition. A second opening through the partition is located adjacent the outlet, and pipes are associated with both openings. One of the openings is made large enough to allow passage of maintenance personnel, thus obviating the need for a further access opening and a liquid-tight seal for that further opening. An access opening at the top of the container is generally aligned with the large-diameter opening through the partition, thus allowing inspection, sampling and pumping out, without requiring maintenance personnel to enter the container.

Abstract translation: 用于雨水和废水的储罐拦截器包括由隔板分成上部旁路隔室和下部处理隔室的容器。 用于容器的入口和出口位于隔板相邻的侧壁中。 隔板限定了一个起重的堰，其限制了以低流速进入的液体，通过隔板穿过相邻的开口，以收集在隔板下方的处理室中。 通过隔板的第二开口位于出口附近，并且管道与两个开口相关联。 其中一个开口被制成足够大以允许维护人员通过，从而避免需要另外的进入开口和用于该进一步打开的液密密封件。 在容器顶部的入口通常与通过隔板的大直径开口对齐，从而允许检查，取样和抽出，而不需要维护人员进入容器。

公开(公告)号：US07378016B2

公开(公告)日：2008-05-27

申请号：US11287846

申请日：2005-11-28

Applicant: Joseph Gordon Monteith

Inventor： Joseph Gordon Monteith

IPC: C02F1/68

CPC classification number: C02F1/66 ,  B01J8/1809 ,  B01J8/1872 ,  B01J19/0086 ,  B01J2208/00548 ,  B01J2208/00592 ,  B01J2208/0061 ,  B01J2219/185 ,  B01J2219/1946 ,  C02F2103/10 ,  C02F2103/16 ,  C02F2103/22 ,  C02F2103/32 ,  C02F2209/40

Abstract: A device is provided for increasing the pH of an acidic aqueous stream, which may result from commercial activity in petroleum, mining, metal finishing and food processing sectors, among others. A container defines an upright reactor portion with a cross-section that increases upwardly, along with inlet and outlet conduits connected to an inlet and an outlet between which the reactor portion is located. The conical portion contains a bed of substantially water-insoluble alkaline salt particulate, such as MgSO, the bed being such that, when the pH of the inflowing aqueous stream is below 7, contact between the particulate and the aqueous stream will raise the pH of the outflowing stream to a level above that of the inflowing stream.

Abstract translation: 提供了一种用于增加酸性含水流的pH值的装置，其可能由石油，采矿，金属加工和食品加工部门等的商业活动引起。 容器限定具有向上增加的横截面的直立反应器部分，以及连接到反应器部分所位于的入口和出口之间的入口和出口导管。 锥形部分包含基本上不溶于水的碱性盐颗粒如MgSO 4的床，床的流动使得当流入的水流的pH低于7时，颗粒和水流之间的接触将提高pH 流出的流量高于流入物流的水平。

公开(公告)号：US5753115A

公开(公告)日：1998-05-19

申请号：US677419

申请日：1996-07-09

Applicant: Joseph Gordon Monteith

Inventor： Joseph Gordon Monteith

IPC: B01D17/00 ,  B01D21/00 ,  E03F5/16 ,  B01D21/02

CPC classification number: B01D21/0087 ,  B01D17/00 ,  B01D21/0006 ,  B01D21/0042 ,  B01D21/2405 ,  B01D21/2433 ,  B01D21/2444 ,  E03F5/16 ,  B01D2221/12

Abstract: A tank interceptor for rainwater and waste-water has an approximately opposed inlet and outlet. An inlet compartment is disposed adjacent the inlet, while an outlet compartment is provided in communication with the outlet. Both compartments are upwardly open, thus constituting a first aperture adjacent the top of the compartment. A second aperture is provided in each compartment, adjacent the bottom, through which solid and other heavy components can pass into the internal chamber of the container. The first compartment has an auxiliary outlet below the first aperture but above the second aperture, the auxiliary outlet communicating with the top of an auxiliary conduit that has an open bottom end in communication with the internal chamber of the container at a location adjacently below the level of liquid in the internal chamber at low entry flow rates. The auxiliary outlet being adapted to allow oil-based materials to be drawn off.

Abstract translation: 用于雨水和废水的坦克拦截器具有大致相反的入口和出口。 入口隔室设置在入口附近，而出口隔室设置成与出口连通。 两个隔间都向上敞开，从而构成邻近隔间顶部的第一孔。 在每个隔室中邻近底部设置有第二孔，固体和其它重组分可以通过该第二孔进入容器的内部室。 第一隔室具有在第一孔下方但在第二孔下方的辅助出口，辅助出口与辅助管道的顶部连通，该辅助管道具有敞开的底端，与容器的内部室相邻，位于水平面附近 的液体在内部腔室以低进入流量。 辅助出口适于允许油基材料被抽出。

公开(公告)号：US5746912A

公开(公告)日：1998-05-05

申请号：US811510

申请日：1997-03-04

Applicant: Joseph Gordon Monteith

Inventor： Joseph Gordon Monteith

IPC: B01D17/00 ,  B01D21/00 ,  E03F5/16 ,  B01D21/02

CPC classification number: E03F5/16 ,  B01D17/00 ,  B01D21/003 ,  B01D21/2411

Abstract: A wastewater treatment installation includes at least two tank units having portions located in juxtaposed relation, the units being secured in such position. An inlet to the first tank unit communicates with a drop pipe connecting the inlet to a liquid delivery structure intermediate the top and bottom of the first tank unit, and located diametrically opposite the respective portion. The liquid delivery structure ejects liquid tangentially in opposite directions along the side wall of the first tank unit. An outlet from the second tank unit (or the last of a series of units) is located opposite the respective portion, and an outlet riser pipe connects the outlet to an intake opening, which is located intermediate the top and bottom of the second tank unit. A transfer opening at the juxtaposed portions connects each adjacent pair of tank units, and a diversion fitting associated with the opening between the tanks ensures that most of the liquid entering the second tank unit is ejected tangentially in opposite directions along the side wall of the second tank unit. This reduces the likelihood of scouring and discharging settled materials at the bottom of the tank units, and also the ejection of floating materials (oil, grease, etc.) captured in the tank units above the general level of the lower ends of the inlet drop pipe and the outlet riser pipe.

Abstract translation: 废水处理装置包括至少两个具有并置关系的罐单元，该单元被固定在该位置。 第一罐单元的入口与连接入口的液滴管连通，液滴输送结构位于第一罐单元的顶部和底部之间，并且位于与相应部分完全相对的位置。 液体输送结构沿着第一罐单元的侧壁在相反方向上切向喷射液体。 来自第二罐单元（或一系列单元的最后一个）的出口位于相应部分的相对处，并且出口提升管将出口连接到位于第二罐单元的顶部和底部之间的进气开口 。 在并置部分处的传送开口连接每个相邻的一对罐单元，并且与罐之间的开口相关联的分流配件确保进入第二罐单元的大部分液体沿着沿着第二罐的侧壁的相反方向被切向地喷射 坦克单位。 这降低了在罐单元底部冲洗和排出沉淀材料的可能性，并且还将捕获在罐单元中的浮动材料（油，油脂等）的喷射高于入口下端的一般水平高度 管道和出口立管。