Inkoel automation solution helps SOCAR maximize Kalmaz gas storage capacity and improve efficiency and safety. Inkoel upgrades to Endress+Hauser level and interface measurement technology, removing water from produced crude oil faster and better.
Baku, Azerbaijan. December 17, 2012 - Most crude oil production requires treatment to remove water. The crude oil must generally be free of water before it can be sold and transported in pipelines. Inkoel MMC in collaboration with Endress+Hauser has helped Binagadi Oil Company to remove water from produced crude oil faster and better.
Binagadi Oil has replaced unreliable ultrasonic and capacitance-based level measurement devices with new Levelflex FMP55 multi-parameter transmitters and Tank Gauging System from Endress+Hauser.
A common measurement in the oil production is detecting the interface level between oil and water in the tank. Emulsion always exists between oil and free water.The FMP55 guided wave radar is used to monitor the level and interface of oil and interface in 3 process tanks. High and low point level detection devices Liquiphant M FTL51 provide overfill prevention at the tanks. The Endress+Hauser FMP55 level transmitter combines guided wave and capacitance technologies, making it especially suitable for measuring interfaces with emulsion layers. The Levelflex FMP55 guided wave radar is enhanced with groundbreaking Sensor Fusion technology to offer best-in-class guided radar measurement for interface levels with emulsion layers. It combines the tried and trusted level monitoring capabilities of capacitance level measurement with the all the advantages of guided radar continuous monitoring in a single instrument to provide accurate, reliable interface level and overall level measurement. Redundant interface detection guarantees safe operation.
The Endress+Hauser Tank Gauging system provides inventory control with accurate data of level, volume and temperature at 3 additional storage tanks. The Tank Gauging System consists of the Tank Side Monitor NRF590, the non-contacting radar level transmitter FMR240 and the intrinsically safe multi-signal converter with precision average temperature sensor Prothermo NMT532. Each Tank Side Monitor NRF590 acquires data from the tank measurement transmitters via intrinsically safe 2 wire HART multidrop communication, displays at the on-site display and transfers the measured and calculated values to the upper level tank inventory system by EIA-485 Modbus interface.
Tank farm automation is now easier and less costly with the integration of Endress+Hauser Tank Gauging System and the Rockwell Automation digital automation system CompactLogix™ 1769. The more accurate and reliable tank automation system from Inkoel MMC has helped the customer to increase safety, reduce shutdowns and increase production.
About Inkoel MMC
Inkoel MMC provides instrument and automation solutions in the oil and gas, refining, chemical, water and wastewater treatment, food and beverage, mining and other industries. The company collaborates with selected partners to help customers reduce system integration costs, improve operational and maintenance efficiency using best-inclass production of automation manufactures such as Rockwell Automation, Endress+Hauser, Metso, Phoenix Contact, Rittal, Leoni Kerpen and many others.
Endress+Hauser is trusted by more than 100,000 customers to make their processes safe, efficient and environmentally friendly. We offer a range of measurement products, including level, flow, pressure, temperature, analytical and complete engineered solutions designed to help customers acquire, transmit, control and record process information needed to manage operations in a safe, reliable and profitable manner.
Industrie 4.0 combines production methods with state-of-the-art information and communication technology. The driving force behind this development is the rapidly increasing digitisation of the economy and society. It is changing the future of manufacturing and work in Germany: In the tradition of the steam engine, the production line, electronics and IT, smart factories are now determining the fourth industrial revolution.
The technological foundation is provided by intelligent, digitally networked systems that will make largely self-managing production processes possible: In the world of Industrie 4.0, people, machines, equipment, logistics systems and products communicate and cooperate with each other directly. Production and logistics processes are integrated intelligently across company boundaries to make manufacturing more efficient and flexible.
This facilitates smart value-creation chains which include all of the lifecycle phases of the product – from the initial product idea and development, production, use and maintenance through to recycling. In this way, customer wishes for everything from the product idea through to recycling can be taken into account, as well as the related services. This enables companies to produce products that are customised according to individual customer requirements more easily than before. The individual production and maintenance of products could become the new norm.
Radar has become the preferred technology for level measurement in many of today’s industrial applications since it has been continually developed and improved over the past 40 years.
For noncontacting radar instruments, selecting the microwave frequency transmitted by the device is an area in which some interesting recent developments have taken place. Noncontacting radar instruments using high-frequency (75 to 85 gigahertz [GHz]) technology have been introduced, complementing the low - (6 to 11 GHz) and mid-frequency (24 to 29 GHz) devices already extensively deployed to provide accurate and reliable level measurements.
Offering a wider selection of devices to end users is beneficial, but it is crucial to select a radar instrument that uses the most appropriate frequency band for each application. The different frequency bands are not equally suited to every application, so the strengths and weaknesses of each must be carefully considered in light of how various process conditions can affect performance.
Our Bulletin 2711R PanelView™ 800 Graphic Terminals are panel-mount display devices that offer keypad or touch screen options for operator input. These graphic terminals are available in 4...10 in. display sizes and are compatible with micro and small controllers.
They feature high-performance processors, high-resolution displays, and high flash and dynamic memories. The built-in Ethernet and serial communication ports support a variety of networks. These terminals offer improved usability with remote monitoring capability.
Features: Optimized for compatibility with Micro800® and MicroLogix™ controllers, Enables connectivity with CompactLogix™ 5370 L1, L2, and L3 controllers, Offers remote monitoring and troubleshooting of terminal using a Virtual Network Computing (VNC) server, Includes high-resolution display with LED backlight supporting 65K colors, Offers flexible application modes in landscape and portrait, Includes high performance 800MHz CPU processor with 256MB memory, Includes USB host port and microSD™ support file transfer or updating firmware, Alerts operators with alarm messages that include embedded variables, Provides ability to upload and download groups of data or parameter settings with recipe capability.
This Standard Technical Specification was developed by Hunter Water Corporation to be used for the design, construction/installation and/or maintenance of facilities that are, or are to become, the property of Hunter Water Corporation.
It is intended that this Standard Technical Specification be used in conjunction with various other standard and project specific drawings and design requirements as defined by Hunter Water Corporation for each particular project.
Hunter Water Corporation does not consider this Standard Technical Specification suitable for use for any other purpose or in any other manner. Use of this Standard Technical Specification for any other purpose or in any other manner is wholly at the user's risk.
Hunter Water Corporation makes no representations or warranty that this Standard Technical Specification has been prepared with reasonable care and does not assume a duty of care to any person using this document for any purpose other than stated.
Rockwell, Emerson, Honeywell and Siemens are among the companies that automation professionals have identified as offering the best technology in more than 80 product categories.
After much anticipation and efforts to rally support for the cause of open process control architecture, The Open Group’s Open Process Automation Forum had its first meeting in San Francisco, CA, November 16-17, 2016. Focused on developing a standards-based, open, secure, interoperable process control architecture, the Open Process Automation saw an impressive turnout for this initial meeting with 57 individuals from 30 different organizations attending.
ExxonMobil has been asserting the need for a new standards effort in the process control automation area, across the country, for several years. In early 2016, having seen how a similar Open Group standards effort transformed the avionics industry, ExxonMobil approached The Open Group to potentially initiate a new open standards activity for the process control industry.
From March to September 2016, ExxonMobil and The Open Group staff worked to build a “coalition of the willing” comprising end-users throughout the process control-using industries, and their key suppliers. During this time, the organizations built interest and identified potential participants via several public outreach meetings, webcasts and face-to-face conversations. As the incubation work proceeded, it became clear that there was interest from at least seven different industry sectors, who use similar systems from the same community of suppliers in their process manufacturing environments.
These sectors included food and beverage, mining and metals, oil and gas, petrochemical, pharmaceutical, pulp and paper, and utilities.