LAKOS旋液分离器控制系统说明书

sor液位开关中文说明书基本原理上升的液面将浮球或弹簧提升式沉筒浮起，带动磁力短管上升至磁场区，吸引并触发电路或气路开关（发出液位到达信号）。

液面下降时，次序相反，电路或气路开关被释开（发出液位下降信号）。

磁力滑块（通过密封套筒）将永久磁铁和开关组件与过程液面隔离，避免磁铁腐蚀和磁力碎屑堆积。

磁力运动传输消除了由机械装置弯曲运动传输带来的疲劳，损坏及过早失效等问题。

磁力运动传输避免了因探杆型传感器引起的表面涂层问题。

在没有工厂允许的情况下，不要改变开关的原件和结构。

沉筒式结构SOR液位开关使用说明书液面下降时各次序相反，磁力短管下落至磁场外，复位弹簧将外部磁铁拽离密封套管，微动开关复位。

浮球式结构浮球与一根机械连杆固定在一起，液面上升至浮球，浮力使连杆上升，磁力短管升入密封套筒中，磁力短管的向上运动是在外部永久磁铁产生的磁场内。

磁力把外部磁铁吸向磁力短管，牢固地吸附在密封套管上，此时，微动开关被触发。

液面下降时各次序相反。

磁力短管下落至磁场外，复位弹簧将外部磁铁拽离密封套筒，微动开关复位。

沉筒悬挂在弹簧平衡联动杆上，液面上升时，沉筒的有效重量因受浮力而减小，弹簧回缩拉起连杆，使磁力短管在密封套筒中上升。

磁力短管的向上运动是在外部永久磁铁产生的磁场内，磁力把外部磁铁吸向磁力短管，牢固地吸附在密封套筒上，此时，微动开关被触发。

引压口联接外浮筒接管应当平直且不受干扰，控制头与外浮筒垂直中心线在3℃内。

注意：顶装式控制头与容器法兰或短管安装成与容器的垂直或水平中心线不超过3℃。

（即：外浮筒式与顶装式均应垂直安装）接管长度应控制在最小，以使开关整体更稳定。

如有需要，应采用接管悬挂或支承装置。

控制机构在液体中动作，接管中很可能堆积沉淀物，应采用“T”形或“+”形管接头，允许定期清洗接管。

排污阀及吹扫阀可用于清洁外浮筒和接管。

正常运行中，所有接管上阀门应完全打开，因为限流可能导致误动作。

警告：介质温度超过232℃时，不推荐在外浮筒上使用保温材料。

廊坊输油气公司大同管理处作业指导书旋流分离器受控状态:文本编号:1、范围为了加强金大输气管线站场分离器的管理，确保分离器的高效运行，特制定分离器操作、维护和保养规程。

本规程规定了旋流式分离器管理内容和要求。

2、职责大同末站负责管理所属分输站分离器的运行和维护工作。

分鹰器型号反1伸囲器雖武.曲能的分樊观吒号见褰乩表4分光及世号»--------- Ml«度 Q------------ 一_- - ■体瓷豔亶益”也--------------------------- 对麓■ ------- -------- --------------- 熬贰注•一个幽号貝謝代農一井分臨好严d当骨出鼎取丸朋能疋寸焙件軽嗨中的任用-理有世确时•昇认为是务薦斛严条审靈功：代闻■制新前廿豪筋加号*一、XL型漩流分离器的原理XL型漩流分离器是在常用XL型漩风分离器的基础上发展起来的，广泛适用于气、液和气、固混合物分离的高效分离技术。

在漩流分离器内部有机地将离心分离，过滤分离等技术集合起来，形成全新的高效分离产品，真正实现了过程容器根据生产需要“全非标”设计。

XL漩流式分离器的核心部件是旋流筒，旋流筒有多种结构形式以满足不同的工况和不同的介质分离要求。

在分离过程中，需净化的气体进入螺旋形轨道后，在螺旋形轨道中向上旋转运动，旋转上升进入筒体上部，在离心力的作用下，大量液体或固体颗粒被甩向筒体下部的壁面，气体进入筒体上部后，旋转分离的颗粒甩向筒体上部的内壁面，并向下进入集液室中，从而达到了净化气体的作用。

由于气体的旋转直径很小，在较小的气体流量和较低的气速下仍有较强的离心力场，确保了分离的效果。

二、XL型漩流分离器的分类我公司目前开发的旋流筒有3种结构形式：单级旋流筒、两级串接旋流筒、二次风旋流筒，它可根据具体设计条件来选定。

XL漩流分离器可以分离3-5um的固体颗粒和10um以上的液体颗粒，若在分离器上部加过滤型分离元件组成的旋流过滤式分离器对1-3um的液体颗粒也有很高的分离效率。

HIROSS 恒温恒湿机房精密空调操作手册HIMOD 系列北京**** 科技有限公司技术部2009年01月01 日第一章HIMOD 系列海洛斯空调概述 ...............................................型号多 ......................................................................................控制技术先进 .................................................................................制冷系统 ..................................................................................送风系统 ..................................................................................加湿系统 ..................................................................................加热系统 ..................................................................................其它 .....................................................................................第二章HIMOD 系列海洛斯空调型号含义 ........................................... 第三章有关空调的一些资料 ........................................................气流组织方式 .................................................................................盖板纽开启方式 .............................................................................空调重量 .....................................................................................机组尺寸及维护空间 ...........................................................................第四章制冷循环管路示意图 ........................................................风冷却（A型） ............................................................................水冷却（W型） ...........................................................................双冷源（D型） ............................................................................单系统（C型） ............................................................................双系统（C型）. ............................................................第五章调速风机调速接线示意图..................................................... 第六章MICROFACE概述.......................................................概述 .....................................................................................面板简介 ..................................................................................液晶显示屏介绍 .............................................................................第七章MICROFACE面板的操作 .................................................第八章控制器的使用 ..............................................................控制器（HIROMATIC）概述.................................................................控制器的操作 .................................................................................菜单结构 ..................................................................................第九章日常维护及特殊维护 ........................................................日常维护 ..................................................................................特殊维护 ..................................................................................第十章常见报警及处理 ..........................................................低压报警 ..................................................................................高压报警 ..................................................................................加湿报警 ..................................................................................失风报警 ..................................................................................电加热过热报警 .............................................................................显示器发黑 .................................................................................空调不制冷 .................................................................................附录1 ：参数列表 ...............................................................附录2：报警内容列表 ...........................................................附录3：各菜单项含义 ...........................................................第一章HIMOD 系列海洛斯空调概述HIMOD系列海洛斯空调（HIMOD空调）是当今世界上最先进的机房专用恒温恒湿机房专用精密空调。

旋液分离器原理及投用发布时间：2021-05-21T16:07:23.237Z 来源：《基层建设》2021年第2期作者：娄宇轩[导读] 摘要：介绍了乙烯装置随着裂解炉运行周期的延长，辐射段炉管以及废热锅炉处的结焦增加，致使运行周期内部分焦粉脱落进入急冷系统，大量焦粉聚集在旋液分离器，过多的焦粉也为下游系统的运行带来了难度，针对急冷系统焦粉产生进行分析并提出了解决方案，确保急冷油系统的正常运行。

天津石化烯烃部乙烯车间天津市 300270摘要：介绍了乙烯装置随着裂解炉运行周期的延长，辐射段炉管以及废热锅炉处的结焦增加，致使运行周期内部分焦粉脱落进入急冷系统，大量焦粉聚集在旋液分离器，过多的焦粉也为下游系统的运行带来了难度，针对急冷系统焦粉产生进行分析并提出了解决方案，确保急冷油系统的正常运行。

关键词：裂解炉；焦粉；滤网；旋液分离器；分离效果差前言旋液分离器是根据离心沉降和密度差的原理，当急冷油从旋液分离器进口以切向进入设备后，产生强烈旋转运动，由于急冷油和胶粉的密度不同，在离心力、向心力、浮力和流体拽力的共同作用下，使密度低的急冷油上升，由出口进入后系统，密度大的焦粒和焦粉沉降在旋液分离器底部，进入小的旋液分离器分离罐，通过清理分离罐滤网将焦粉和胶粒清理出系统，从而达到除焦的目的。

1.工艺流程由废热锅炉（TLE）来的裂解气在急冷器中经喷入的急冷油冷却到210摄氏度后，汽液混合物从汽油分馏塔下部进入，在汽油分馏塔中由循环急冷油和急冷水塔来的回流汽油把裂解气进一步冷却到105摄氏度后去急冷水塔。

在汽油分馏塔中分离出裂解燃料油和裂解柴油，汽油及更轻组分由塔顶分出。

由汽油分馏塔塔釜采出的循环急冷油首先分为一大一小两股，小股去裂解燃料油汽提塔，经裂解燃料油泵外送界区；另一大股经过旋液分离器分离出系统内焦粉以及焦粒，先分出一部分去循环碳二碳三裂解气急冷器，由急冷器的出口温度控制该股急冷油的量，然后去稀释蒸汽换热器来发生稀释蒸汽来回收热量。

廊坊输油气公司大同管理处作业指导书旋流分离器受控状态：文本编号:发布日期：2007年7 月9 日实施日期：2007年7 月9 日1、范围为了加强金大输气管线站场分离器的管理，确保分离器的高效运行，特制定分离器操作、维护和保养规程。

本规程规定了旋流式分离器管理内容和要求。

2、职责大同末站负责管理所属分输站分离器的运行和维护工作。

一、XL型漩流分离器的原理XL型漩流分离器是在常用XL型漩风分离器的基础上发展起来的，广泛适用于气、液和气、固混合物分离的高效分离技术。

在漩流分离器内部有机地将离心分离,过滤分离等技术集合起来，形成全新的高效分离产品，真正实现了过程容器根据生产需要“全非标”设计。

XL漩流式分离器的核心部件是旋流筒,旋流筒有多种结构形式以满足不同的工况和不同的介质分离要求.在分离过程中，需净化的气体进入螺旋形轨道后，在螺旋形轨道中向上旋转运动,旋转上升进入筒体上部，在离心力的作用下,大量液体或固体颗粒被甩向筒体下部的壁面,气体进入筒体上部后，旋转分离的颗粒甩向筒体上部的内壁面，并向下进入集液室中，从而达到了净化气体的作用.由于气体的旋转直径很小,在较小的气体流量和较低的气速下仍有较强的离心力场,确保了分离的效果.二、XL型漩流分离器的分类我公司目前开发的旋流筒有3种结构形式:单级旋流筒、两级串接旋流筒、二次风旋流筒，它可根据具体设计条件来选定。

XL漩流分离器可以分离3-5um的固体颗粒和10um以上的液体颗粒,若在分离器上部加过滤型分离元件组成的旋流过滤式分离器对1-3um的液体颗粒也有很高的分离效率。

为适应工业应用的各种分离要求，旋流分离器以开发出三种系列产品，可以满足各种气体净化要求三、旋流分离器的结构四、XL漩流分离器的特点（1）对液体颗粒与固体颗粒有较高的分离效率XL漩流分离器在原则上采用在螺旋形轨道中低速旋流初步分离，并在第二次风的作用下旋流分离细小颗粒的设计思想消除了诸如液体夹带、剪切破碎、气流雾化、卷吸等因素的影响，保证了设备的分离效率，可以分离3-5um 的固体颗粒和10um以上的液体颗粒。

编 号 制-规-08 项目号 H00001 第 1 页 共 1 页 日 期 2020-9-27
版 次 A
中国石油集团 工程设计有限责任公司
迪威尔石油天然气技术开发 公司
设计证书号010065－sj 勘察证书号010065－kj 技术标书
涩北一、二号气田集气站工程
旋流分离器技术说明
编 制
校 对
审 核
审 定
旋流分离器技术说明书
编 号 制-规-08
第 2 页 共 11 页
技术标书
中国石油集团工程设计有限公司
目 录
1.0 范围
2.0 法规、规范及标准
3.0 对制造商的要求
4.0 设计
5.0 材料
6.0 检验与验收
7.0 设计文件的审批
8.0 油漆、包装及运输
9.0 最终报告和数据单 10.0标识 11.0现场服务 12.0供货商担保 13.0同类产品对比 14.0应用业绩
编 号 制-规-08
第 2 页 共 11 页
技术标书
中国石油集团工程设计有限公司
两级XL 旋流分离器内部机构示意图
14、应用业绩
旋流分离1997年开发成功后在西北地区的新疆克拉玛依、塔里木、辽河等油田得到广泛的应用，解决了油气田开发多年来存在的问题，装置的正常开车奠定了基础，已经成非新疆克拉玛依油田天然气领域中的制定产品，塔指气田制定产品。

累积销售50余台。

3(7-250m /hr) (10.3bar)*若实际参数超标请与LAKOS联系TBI系列使用不可拆卸的分离器污物收集桶TBX系列使用可拆卸的分离器Page 2系统管道的旁路安装方式单次分离重复分离无论安装在管道哪里，其旁路分流约占主管道总流量的5-25%（视具体情况而定），旁路系统的恰当使用可以有效的抑制管路内污垢的累积。

在选型时，首先确定旁路流量值，然后在第三页上的参数表中选择正确的型号，其标定流量值应大于或等于需要的旁路流量对于所需流量大于型号范围的情况，可以考虑多台并联安装，或者与LAKOS联系，进行特需定制。

0065-SRV 39 3/4 101024610 0100-SRV 39 3/4 101024610 0145-SRV 39 3/4 1010287110200-SRV 39 3/4101028711 0280-SRV 39 3/4101028 7110400-SRV 481219307620525-SRV 481219307620825-SRV 601524369141100-SRV 60152436914TBI/TBX模式DimA DimB DimE-TBI DimE-TBX Inches mm Inches mm Inches mm Inches mm 50 1/2 1283 51 1/4 130262 1575 67 1/16 170369 7/16 1764 69 7/16 176469 7/16 1764 69 7/16 1764 85 2159 85 1/16 216185 2159 85 1/16 2161也可在上下载更多的CAD图纸0030-SRV 39 3/4 1010 24 610 44 5/16 1125 46 1/8 1172 44 1/16 1119 46 1/8 117247 1194 48 1/8 122247 1/2 1207 49 1/4 1251旁路安装系统SPX的型号Plus系统包括一个微细的滤芯包括SPI型号和SPX型号。

ApplicationsThe range of Alfa Laval i-DW decanter centrifuges is ideal for continuous thickening and dewatering of sludge from munici-pal and industrial wastewater treatment as well as potable water, when the main focus is reliability, cost-effi ciency and simple operation with medium to high capacity and dry solids. Benefi tsi-DW decanters meet fundamental performance criteriain a cost-effi cient way and are easy to operate. Like other Alfa Laval decanters they offer high quality, robustness and easy serviceability. The innovative design, incorporatingp atented solutions, provides a number of benefi ts:• Small footprint• Low power consumption• Low cost of ownership• Fully enclosed process sections• High performance thanks to liquid lock design• Low noise emission• Alfa Laval certifi ed technologyWorking principlesSeparation takes place in a horizontal cylindrical bowl equipped with a screw conveyor. The feed enters the bowl through a stationary inlet tube and is accelerated smoothly by an inlet distributor. The centrifugal force that results from the rotation then causes sedimentation of the solids on the wall of the bowl.The conveyor rotates in the same direction as the bowl, but slightly slower, thus moving the solids towards the conical end of the bowl. A special Liquid Lock conveyor design (patent pending) accelerates light particles before discharge for opti-mum separation. It also facilitates the small footprint. Separation takes place throughout the entire length of the cylindrical part of the bowl. Relatively low G-force is needed for the i-DW decanter to deliver good performance in termsof capacity and cake dryness. This contributes to low power consumption.The clarifi ed liquid leaves the bowl by fl owing out of the casing via special patented energy saving Power Tubes that enable lower speed of discharged effl uent. The cake leaves the bowl through the solids discharge openings into the casing.Process optimizationAlfa Laval i-DW decanters can easily be optimised to suit s pecific requirements by adjusting • b owl speed to obtain the G-force required for the most efficient separation • c onveyor speed for the most efficient balance between liquid clarity and solids dryness • p ond depth in the bowl for the most efficient balance between liquid clarity and solids dryness.Design and serviceabilityThe rotating assembly of these decanter centrifuges ismounted on a compact, in-line frame, with main bearings at both ends. Vibration dampers are placed under the frame. The rotating part is enclosed in a casing with a cover and a bottom section with integrated outlets for both solids and the liquid being removed.i-DW decanters are designed with good serviceability in mind such as easy assembly/disassembly, easy access to cleaning and lubrication and field replaceable wear parts. Spare parts are available in OEM quality and as specific service kits MaterialsThe bowl, conveyor, inlet tube, outlets, cover and other parts in direct contact with the process media are all madeof AISI 304 stainless steel. The bowl can also be supplied in AISI 316 (optional). The discharge ports, conveyor flights and feed zone are protected with materials that are highly resistant to erosion. The frame is made of mild steel.Drive systemi-DW decanter bowls are driven by an electric motor and a V-belt drive. Power is transferred to the conveyor via a plan-etary gearbox. The Variable frequency drive (VFD) system opti-mizes the differential speed without changing belts or pulleys for an overall reduction of the power consumption.Operation can also be pre-set to a suitable set of parameters.Control systemi-DW decanter centrifuges are as standard delivered withAlfa Laval’s Basic Core Controller (BCC). This control package is capable of fully controlling the decanter operation, ensuring the most efficient performance and keeping costs for installa-tion, commissioning, operation and maintenance to a mini-mum. The controller is also designed to measure the tempera-ture of the bearings, and to monitor vibration level.Options• Bowl material: Stainless steel AISI 316• M ain drive motor: Floor mounted (standard, see illustration) or frame mounted (optional)Technical specificationsModel i-DW 40 i-DW 70 i-DW 90Capacity10-25 m 3/h15-40 m 3/h22-60 m 3/hDimensions (L x W x H) 3,057 X 870 x 1,016 mm3,450 x 960 x 1,703 mm3,796 x 1,050 x 1,319 mmWeight Approx. 1,200 kgApprox. 1,600 kgApprox. 2,100 kgMain speed 3,400 rpm 2,900 rpm 2,500 rpm Main drive motor 18.5-30 kW22-37 kW 37-55 kW Back drive generator5.5 kW11 kW15 kWA l f a L a v a l i s a t r a d e m a r k r e g i s t e r e d a n d o w n e d b y A l f a L a v a l C o r p o r a t e AB .P W W 00007E N 1412Alfa Laval reserves the right to change specifications without prior notification.How to contact Alfa LavalUp-to-date Alfa Laval contact details for all countries are always available on our website at 。

Renault Cléon, near Rouen, currently produces 8,000 cylinder heads per day for Renault engines.Case story: Separation systemThe wash liquids were continuously contaminated by oil from the coolant used in the machining processes, which has an oil content of 12%. 18 litres of pure oil were entering the wash liquid per day and the overall level of contamination was 1.28% tramp oil per month.Since Renault’s limit before draining the tank was 1%, it was necessary to drain one-third of the volume of the system every month and remove the total volume of liquids every three months. The annual cost of disposal of waste liquids was Euro 52,800 and the annual cost of replacing with new wash liquids was Euro 48,000.October 2000…During 2000, Renault consulted system builder Ecofluide, Alfa Laval and service fluid supplier Quaker, and together they developed an effective solution. Renault’s aim was to maintain the tramp oil content in the total wash liquid system at a maximum of 0.5% and not drain the tank during production.Michel Franco, Alfa Laval France: “The wash liquid installation was completely modified. Ecofluide installed a new 35 m 3tank connected to the system, and a working tank of 8 m 3.The system was completed by an Alfa Laval separation system with a special step to split the emulsion formed by the tramp oil and the water in the wash liquid. Quaker supplied an additive for this purpose.”In the new system, the wash liquid is cleaned in a number of batches each day. “In the working tank, each batch is dosed with the demulsifying additive and moved by means of a pump,” explains Michel Franco. “When the tramp oil reaches the top of the working tank, it is fed to the separator by a suction device. The remainder of the contents of the working tank are then passed through the separator.”How to contact Alfa LavalUp-to-date Alfa Laval contact details for all countries are always available on our website at EFU00018EN 0406Impressive resultsAccording to Renault, during 2001 the tramp oil content in the wash liquid system was maintained at 0.4% of maximum contamination. The separator removed 70 litres of tramp oil per day and the system was not drained throughout the year. Today, Renault Cléon is producing 8,000 cylinder heads per day and the Alfa Laval separation system has been running for 26,000 hours, 24 hours per day, seven days per week. Renault says the cleaning module paid for itself during the first year due to savings on wash liquid disposal andreplacement costs. It has also eliminated problems relating to poor component cleaning, such as the need for costlymanual cleaning. Breakdowns due to contaminants in wash liquid systems have also been reduced.Renault has a maintenance contract with Alfa Laval France,including preventive maintenance, to keep the separator in efficient operating condition.Altogether Renault Cléon has five Alfa Laval separation modules for cleaning wash liquids at various stages of theproduction chain.AlfaPure Z – clear thinking from Alfa LavalLeading the field in separation technology, Alfa Laval presents AlfaPure Z, the next generation of centrifugal separationsystems for cleaning and recycling coolants and wash liquids in metalworking operations.One of the most impressive features of the AlfaPure Z is its user-friendliness. A touch control screen gives a clear overview and simple control of all functions. By efficientlyremoving oil, grease and solid particles, the AlfaPure Z greatly extends the life of water-based service fluids, helping to cut production costs and raise productivity. The system will normally pay for itself in less than one year.A complete system with a high capacity to size ratio, the AlfaPure Z module requires less than 1.7 m 2of floor space and can handle tanks with volumes of up to 150 m 3.Photos: Courtesy of Renault。

不锈钢旋流油水分别器的使用介绍分别器操作规程旋流油水分别器是一种应用特别广泛的非均相混合物分别设备。

水力旋流器工作的基本原理是将具有确定密度差的液—液、液—固、液—气、气—固等两相或多相混合物旋流油水分别器是一种应用特别广泛的非均相混合物分别设备。

水力旋流器工作的基本原理是将具有确定密度差的液—液、液—固、液—气、气—固等两相或多相混合物以确定的压力（或初速度）有切向进料口进入水力旋流器内部；流体的压力能转为流体的动能在旋流器内部做高速的旋转运动，流体在运动过程中产生很强的离心力场；使混合物中密度（或直径）较大的组分（粗相）在离心力的作用下，在旋转运动的同时向下、向外运动，终形成外旋流以底流的形式从底流口排出；不锈钢旋流油水分别器调试a.旋流器在安装完毕（或停止使用很长时间）开始使用时，应先导通橇外各流程进出口阀门。

b.打开排油腔反冲洗阀，渐渐打开进水阀、出水阀、排气阀，关闭其他全部阀门。

不锈钢旋流油水分别器原理旋流油水分别器用于油水分别的旋流器分预分和除油两种，者均处理以水为连续相的油水混合物，分别机理相同，都是在离心力场内依靠油水密度差油水分别。

预分旋流器一般用于高含水原油预分别及井下油水预分别系统中，目的是为尽量削减原油含水率，同时得到允许含油浓度范围内的污水，分流比一般掌控在10%以内。

—专业分析仪器服务平台,试验室仪器设备交易网,仪器行业专业网络宣扬媒体。

相关热词：等离子清洗机,反应釜,旋转蒸发仪,高精度温湿度计,露点仪,高效液相色谱仪价格,霉菌试验箱,跌落试验台,离子色谱仪价格,噪声计,高压灭菌器,集菌仪,接地电阻测试仪型号,柱温箱,旋涡混合仪,电热套,场强仪万能材料试验机价格,洗瓶机,匀浆机,耐候试验箱,熔融指数仪,透射电子显微镜。

一：防爆型旋流油水分别器特性介绍概述旋流管由进口、旋流腔、收缩腔、尾锥、尾管、底流口、溢流口等部分构成。

油水混合液由旋流腔上的进口进入分别器，形成螺旋流动。

•Reliable, always-available system. Operates continuously with high performance, regardless of variations in feed, oil shocks and rough weather conditions.•Easy to operate. Automated control and monitoring system integrates with existing Alfa Laval systems, providing a single user-friendly interface with the latest EPC 70.•Safe operation. A password-locked switch can be set in manual/locked position to ensure that only the individual responsible for environmental compliance may authorize overboard discharge.•Compact, modular, easy-to-install system saves time, space and money.•Continuous, single-stage operation requires less holding tank volume and provides more space for payload.•Easy integration with existing communications systems onboardDesignPureBilge Compact is available in two standard versions:•PureBilge Compact 0605: 600l/h, 5 ppm•PureBilge Compact 0615: 600l/h, 15 ppmScope of supply•Separator module skid•Feed pump skid•Electric heater skid, (in case of electric heating media)Options•BlueBox Data Recorder•Sludge removal kit•Remote operation•Recovery heater•Dosing unitsWorking principleThe PureBilge Compact bilge water treatment system comprises four main functions:•Forwarding/pumping•Oily water pre-treatment•Centrifugal separation•Process control and monitoring11.Feed inlet2.Clean water outlet3.Feed recycling4.Oil outlet5.Sludge outlet6.Feed pump with variable speed control7.Pressure transmitter8.Strainer9.Pre-heater10.Temperature transmitters11.Temperature controller12.Three-way changeover valve13.BWPX 604 high speed centrifugal separator14.Oil-in-water monitor15.Constant pressure modulating valveOily water is pumped from the settling tank to the pre-treatment stage by a positive displacement pump with variable frequency drive.In the pre-treatment stage the bilge water is fed through a basket strainer that traps large particles from the fluid. The fluid then passes through a heat exchanger, which raises the temperature of the fluid to the required level for optimal separation efficiency, generally between 60°C to 70°C.A three-way changeover valve is located after the heat exchanger in the pre-treatment stage. The purpose of this valve is to direct the fluid to the separation stage when all process conditions, such as feed temperature, pressure and separator speed match pre-set values. If any condition is not met, the valve will re-circulate the fluid to the bilge water settling tank.When all process conditions are fulfilled, the fluid is directed to the separation stage. Fluid then enters a high-speed centrifugal separator that is designed for continuous, high-efficiency separation of large volumes of bilge water. Oil and emulsions separated from the bilge water are continuously discharged and directed to a sludge or waste-oil collecting tank. Solids are discharged intermittently through the self-cleaning mechanism of the centrifuge.Treated water is also continuously discharged. An oil-in-water monitor measures the oil content in the treated bilge water in full compliance with IMO Resolution MEPC.107(49). When the oil content is below a pre-set value (15 ppm or lower), the treated water can be directed either to a holding tank for discharge overboard at the ship operator’s convenience, or pumped directly overboard. If the oil content is above the pre-set value, the water is re-circulated to the bilge water settling tank.1234561.Tamper proof cover on OCM and complete sample line.Removal/tampering activates alarm and sets overboard valve in recirculation mode2.GPS position3.Position switch on overboard valve.4.Password protected activation of overboard valve5.Overboard flow meter6.visuALog softwareEPC 70 Bilge process controllerThis new generation of the easy-to operate, computer-based Alfa Laval process controller facilitates advanced fullyautomated monitoring and control of PureBilge functions by displaying in clear text process parameters, alarms and other data.The controller displays the status of the process, system valves and transmitters, activated or deactivated.The process controller is based on the same hardware used in other Alfa Laval units, making it easy to use for operators who are already familiar with this equipment.PureBilge BlueBox Data RecorderThe increasing number of cases where severe penalties have been imposed for discharging bilge water with unacceptably high oil content into the ocean is a growing source of concern for shipping companies.PureBilge BlueBox Data Recorder is a fully automatic, tamper proof bilge data recorder with visuALog software. The system records oil ppm levels, GPS position, separator operation, full alarm log, overboard valve position and overboard flow data.Technical dataFrequency50/60 Hz Power consumption 7.5 kWInstrument air 500–800 kPa Operating water 200–800 kPa Cooling water 200–800 kPa Oil/water 100–400 kPaSteam 700 kPa saturatedThermal oil300–600 kPa 220°C maxFeed pump skid130 kg Dosing pumps skid (without liquid)40 kgDimensional drawingL11500 mm (4 ft 11 inch)L21000 mm (3 ft 3.4 inch)W11240 mm (4 ft 0.8 inch)W2555 mm ( 1 ft 9.9 inch)This document and its contents are subject to copyrights and other intellectual property rights owned by Alfa Laval Corporate AB. No part of this document may be copied, re-produced or transmitted in any form or by any means, or for any purpose, without Alfa Laval Corporate AB’s prior express written permission. Information and services provided in this document are made as a benefit and service to the user, and no representations or warranties are made about the accuracy or suitability of this information and these services for any purpose. All rights are reserved.200006560-2-EN-GB© Alfa Laval Corporate ABHow to contact Alfa LavalUp-to-date Alfa Laval contact details for all countries are always available on our website at 。

•High separation efficiency•Minimized oxygen pick-up•Easy to operate•Robust and reliable designDesignThe Brew 80 Plus separation system consists of a separator, a process & service liquid unit, and an electrical & control system.The liquid outlet is sealed mechanically by an axial hermetic seal that prevents oxidation of the clarified product. The separator discharges solids intermittently at a fixed volume. The system can be selected with an optional ProCarb TM feature - a patented inline carbonation technology that boosts productivity by combining rapid clarification with carbonation. This combination reduces the processing time from crash cooling tanks to packaging from 3 days to 3 hours.All components are skid mounted to facilitate “Plug and Play”installation, which results in a small footprint. it can be configured from a selection of basic and optional features and control functions.The control system includes a PLC and a user-friendly HMI to monitor and control the separation process parameters. The system can be configured for remote operation.All metallic parts in contact with the process liquid are made of stainless steel. Gaskets and seals in contact with the product are made of FDA approved material and are approved according to food regulations (EC1935/2004).The separation system is designed for automated Cleaning in Place (CIP).Scope of supplyThe standard Brew 80 Plus skid mounted system includes the following main components:•Disc stack separator•Process & service liquid unit:–Valves, instruments and other components–Turbidity triggered solids discharge function–Capacity control by inlet turbidity–Manual back pressure regulation valves–Flow meter–Sight glasses–Sample valves•Electrical & control system:–Control cabinet with PLC and touchscreen HMI–Motor starter cabinet with VFD•Commissioning spares•Set of special tools•DocumentationOptions•ProCarb TM•Feed pump•Solids receiving unit (a collection device and a transferpump for the discharged solids)•Service options:–Commissioning–Operators training (basic and advanced level)–Basic service agreement–Performance agreementWorking principleThe process & service liquid unit monitors and regulates the flow and pressure of the feed and utility liquids in and out of the separator.The process liquid is continuously fed from the top into the bowl through the inlet pipe. Separation takes place between the bowl discs due to the centrifugal force. The solids settle towards the periphery of the bowl. The clarified/separated liquid is continuously pumped out of the mechanically sealed bowl by an integrated paring disc through the outlet at the top of the separator.The solids collected in the periphery of the bowl are discharged intermittently through the discharge ports. The discharge is triggered by a turbidity meter placed in the outlet of the system.Water is used to control the movement of the sliding bowl bottom part that opens and closes the discharge ports. The discharged solids decelerate in the sludge cyclone and can be pumped out of the system by the optional solids receiving unit.The process & service liquid unit also controls the separator’s discharge system, flushing, and CIP.532971684Typical bowl drawing for a solids-ejecting separator. The details illustrated do not necessarily correspond to the separator described.1.Feed inlet2.Distributor3.Disc stack4.Paring disc5.Axial hermetic seal6.Liquid phase outlet7.Sliding bowl bottom8.Solids discharge ports9.Solids outlet from cycloneGeneral flow chart of a separator system. The details may differ slightly between different systems.1.Control cabinet2.Main motor starter cabinet and VFD3.Process liquid module4.Product inlet5.Feed pump (optional)6.Standby / Safety water7.Utilities8.Turbidity meter for capacity control9.Turbidity meter for discharge triggering10.Outlet for clarified product11.Drain for separator12.Solids receiving unit (optional)13.Outlet of discharge solids14.ProCarb TM (optional)Technical dataMax. motor power11 kW (17.8 HP)1 Actual capacity and power consumption depend on application, solids content andoperating conditionsProduct outlet DIN 11851 Union DN 32Solids outlet DN25 union SMS 1145Bowl bodyASTM/UNS S31803Gaskets (product wetted)NBR and EPDM (FDA approved materials)Piping Stainless steel 316L Frame and cabinetsStainless steel 316motor900 kg (1985 lbs) Bowl135 kg (297 lbs)Dimensional drawingH21450 mm (4 ft 9 1/16 inches) W11825 mm (5 ft 11 7/8 inches) W21160 mm (3 ft 9 11/16 inches)This document and its contents are subject to copyrights and other intellectual property rights owned by Alfa Laval Corporate AB. No part of this document may be copied, re-produced or transmitted in any form or by any means, or for any purpose, without Alfa Laval Corporate AB’s prior express written permission. Information and services provided in this document are made as a benefit and service to the user, and no representations or warranties are made about the accuracy or suitability of this information and these services for any purpose. All rights are reserved.200005505-1-EN-GB© Alfa Laval Corporate AB How to contact Alfa LavalUp-to-date Alfa Laval contact details for all countries are always availableon our website at 。

•PharmaceuticalsBenefits•High separation efficiency•Small footprint – easy to install and start up•Gentle treatment of the process liquid•Low power consumption•Complete system handling both process and utilityrequirements•Flexible installation possibilities•Robust and reliable designDesignThe system consists of a 18-size separator, a process valve module with valves and components for routing of product and a service liquid modules for utilities in and out from the separator, as well as control and starter cabinet.All metallic parts in contact with the process liquid are made of stainless steel. Gaskets and seals in contact with the product are made of PTFE/Graphite material.The separation system is prepared for completely automated Cleaning in Place (CIP).Available in following executions:•Solid-liquid separation•Liquid-liquid separation•Liquid-liquid-solid separationAvailable for installation in safe area, zone 2 and zone 1.Scope of supply•Disc stack separator with process and service liquid units •Main process valves of type ball valve•Manual flow regulating valve•Automatic counter pressure valve•Flow meter of volumetric type•Main motor starter with VFD•Control panel with PLC and HMIOptions•Solids receiving unit:–Consists of a collection device and a pump to removedischarged solids (only for safe area and zone 2installations)•Factory Acceptance Test•UL or CSA versions available on requestWorking principleThe product enters and leaves the separator via the valve module. The flow rate and the counter pressure in the outlet of the separator are controlled by the process and service liquid module.Discharge of solids from the separator bowl is triggered either by a timer or a manual control. The discharged solids are pumped away by the optional solids receiving unit.The valve module also controls the utility liquids for the separator’s discharge system and for flushing and CIP as wellas an inert gas system for installation in zone 1.451.Control cabinet2.Main motor starter and VFD3.Process and service liquid module4.Product inlet5.Standby/Safety water6.Utilities7.Outlet(s) of product(s)8.Drain for separator9.Solids receiving unit10.Outlet of discharged solidsTechnical dataMaximum motor power67 kW (89,8 HP)1Actual capacities depend on operating conditionsInlet FlangeOutlet DN80 ASME B16.5/DIN EN 1092–1FlangeCustomer connection ANSI B16,5/DIN EN 1092–1 Flange Gaskets in system PTFE / Graphite product wetted parts Pipe frameAISI 304Bowl weight1200 kg (2645 lbs) 1200 kg (2645 lbs)Dimensional drawingH22750 mm (9 ft 1/4 inch)W14545 mm (14 ft 10 15/16 inch)W23008 mm (9 ft 10 7/16 inch)This document and its contents are subject to copyrights and other intellectual property rights owned by Alfa Laval Corporate AB. No part of this document may be copied, re-produced or transmitted in any form or by any means, or for any purpose, without Alfa Laval Corporate AB’s prior express written permission. Information and services provided in this document are made as a benefit and service to the user, and no representations or warranties are made about the accuracy or suitability of this information and these services for any purpose. All rights are reserved.200000596-1-EN-GB© Alfa Laval Corporate ABHow to contact Alfa LavalUp-to-date Alfa Laval contact details for all countries are always available on our website at 。

Heavy-duty solids purging systems to eliminate routine manual purging. Fully electric - fully automatic.Flush separated solids from your LAKOS Separator at intervals you select:never too often, never too late. •Saves valuable liquids•Assures maximum performance•Eliminates costly manual routine labor•Promotes concentrated solids purging for easy handlingThe durable LAKOS Motorized Ball Valve is capable of handling all fine solids, fibrous solids and mild abrasives. It’s also effective for purging all typical solids (specific gravities less than 3.6). The valve’s pressure-sealed stem arrangement allows line flow to actually enhance its shut-off sealing ability, providing further resistance against leakage. The specially matched actuator (to operate the valve) boasts a long list of manufactured features to assure trouble-free operation. Included are:•Heat-treated, high alloy gears•Rugged, high-torque integral single phase motor •Built-in motor overload protection•Permanently lubricated housing eliminates routine maintenance •NEMA-4x rated valve housingController•Fully unattended automatic operation•Serves worldwide single-phase voltages,from 100 to 240 VAC, 50/60Hz (5 amp max.) Consult factory for additional voltage options •Wide range of options for programming purge cycle frequency and duration •Solid state reliability; no routine maintenance required• Durable NEMA-4x rated housing; IP 66 equivalent• Compression molded, fiberglass reinforced polyester housing • Meets CSA, UL, and CE requirements• Non-volatile memory - all controller settings are maintained in the event of a loss of power; no programming requiredSee reverse for additional specificationsAuto Purge with Motorized Ball ValveSUGGESTED INSTALLATIONWIRING DIAGRAM1365 N. Clovis Avenue •Fresno, California 93727USA Telephone:(559) 255-1601•Fax:(559) 255-8093Toll-Free:(800) 344-7205 (USA, Canada &Mexico) •E-Mail:**************Lakos Separators are manufactured and sold under one or more of the following U.S. Patents:3,289,608; 3,512,651; 3,568,837; 3,701,425; 3,947,364; 3,963,073; 4,027,481; 4,120,795; 4,123,800; 4,140,638; 4,147,630; 4,148,735; 4,305,825; 4,555,333; 5,320,747; 5,338,341; 5,368,735; 5,425,876; 5,571,416; 5,578,203; 5,622,545; 5,653,874; 5,894,995; 6,090,276;6,143,175; 6,167,960; 6,202,543; Des. 327,693; and corresponding foreign patents, including 600 12 329.4-08 (Germany) andEP 1 198 276 B1 (EU); other U.S. and foreign patents pending.LAKOS Motorized Ball Valves and ActuatorsOperationThe LAKOS Motorized Ball Valve functions according to the program of the LAKOS controller. To purge solids from the LAKOS Separator,the controller trips a relay which then energizes the valve’s actuator,driving the valve open to allow solids to pass. Purging is stopped when the LAKOS controller, as programmed, again trips the relay (this time to its original position), thereby re-energizing the actuator to drive the valve closed, which halts purging.Specifications•Maximum Valve Pressure: 150 psi (10.3 bar). For higher pressures, consult factory •Temperature Range: 40°-150°F (4.4°-65.5°C)•Standard valve body is bronze. Also available in stainless steel for added corrosion/abrasion resistance •Stainless steel ball with teflon seatLiquid LossWhen the application allows that purging is the final handling of the separated solids, it may be important to know the volume of fluid which may be lost when purging. This information is subject to variations,based on separator size, flow rate and system pressure. Volumes noted here identify the total volume purged (both liquid and solids).Limited WarrantyAll products manufactured and marketed by this Corporation are warranted to be free of defects in material or workmanship for a period of one year from date of delivery.If a fault develops, notify us, giving a complete description of the alleged malfunction. Include the model number(s), date of delivery and operating conditions of subject product(s). We will subsequently review this information and, at our option, supply you with either servicing data or shipping instructions and returned goods authorization. Upon prepaid receipt of subject product(s) at the instructed designation, we will then either replace such product(s) at our option and, if determined to be a warranted defect, we will perform such necessary product repairs or replace such product(s) at our expense.This limited warranty does not cover any products, damages or injuries resulting from misuse, neglect, accident, normal expected wear, improper installation or operation contrary to factory recommendations. Nor does it cover equipment that has been modified, tampered with or altered without factory authorization. No other extended liabilities are stated or implied and this warranty in no event covers incidental or consequential damages, injuries or costs resulting from any such defective product(s).LS-238R (rev. 2/04)Printed on recycled paperNOTE: Larger valve sizes also available. Consult factory for details.*Motorized ball valves require a minimum purge duration of 10 seconds.。