White Papers

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  • Back to Basics: The Power of the Loop

    The current loop is probably one of the most underestimated data transmission and control method. It's so simple that we tend to ignore it in favor of more complex and sophisticated methods.

    Otek
    04/24/2013
  • Instrumentation for Produced Water Applications

    Produced water refers to any water brought up to the surface during oil and gas production, typically as the result of drilling, exploration and hydraulic fracturing. Before disposing or reusing the water, it must be treated to extract hydrocarbons and satisfy environmental code regulations.

    Steven Smith, Endress+Hauser
    04/16/2013
  • Field Device Integration (FDI): Making Device Management Easy

    End users have struggled with different forms of device integration technology over the years, but the FDI effort aims to rationalize the worlds' leading technologies for managing information from intelligent field devices.

    Larry O'Brien, Fieldbus Foundation
    04/09/2013
  • Choosing the Right Pressure Sensor

    Today's pressure sensors are called on to work within the harshest of environments - with the most hostile and corrosive media - or sometimes to take the simplest of pressure readings.

    Honeywell
    04/08/2013
  • Essentials of Level Instrumentation

    The task of determining just how much material is in a tank, reactor or other container really doesn't seem like it ought to be such a difficult task. But when faced with the question, the instrumentation engineer has at his disposal a surprising range of sensor technology options. In this Essentials guide, the editors of Control walk through the alternatives, explain how to narrow your choices and uncover the latest application trends. Register to download this document.

    Control Global
    03/26/2013
  • Electronic Flow Control Valve (EFCV) with Pressure Compensation Capability

    A new concept for an Electronic Flow Control Valve (EFCV) with pressure compensation capability is introduced. Based on its embedded sensors and micro controller, the EFCV can provide flow control without the need of load/displacement/speed information from the power elements, like hydraulic cylinders or hydraulic motors.

    Eaton
    02/26/2013
  • Human Factors: Planning & Design of a Control Room

    The emergence of new technologies, new ergonomic standards and increased public awareness of workplace health issues have combined to inspire a dramatic shift in console design. Today's control workstations are smaller, more functional and more aesthetically appealing than earlier generations. Download this informational package to learn more.

    Winsted
    02/22/2013
  • Securing Your Automation Ethernet Network

    This paper covers the importance of securing automation devices for access internally on an Intranet, or externally over the Internet. Choosing an Ethernet Fieldbus offers the competitive advantage of speed, flexibility and accessibility though steps should be taken to secure automation devices and any associated programming workstations and servers. This paper seeks to educate the Controls Engineer on security strategies, technologies and options available.

    Schneider Electric
    02/13/2013
  • 10 Steps to Lean Electrical Controls

    Globalization is forcing companies to constantly become more efficient. To drive efficiencies, many companies are implementing Lean Manufacturing to stay competitive in this ever shrinking world.

    ABB
    02/04/2013
  • Essentials of Safety Instrumented Systems

    This Control Essentials Guide is the first in a continuing series of interactive PDFs by the editors of Control. Essentials of Safety Instrumented Systems is designed to provide process industry professionals with an up-to-date, top-level understanding of the most important SIS issues. From fundamental concepts and terminology to the ongoing debate over integrated vs. stand-alone safety systems, get up to speed quickly on the key technology and marketplace drivers.

    Control Global
    01/28/2013
  • Discussion of Flowmeter Accuracy Specifications

    Understanding the accuracy of a given flowmeter is an important field but it can also be misleading as different specifications are used to explain how accurate a flowmeter measurement actually measures. This paper discusses the different specifications and interprets the impact of them.

    Why deal with accuracy?

    The reasons for dealing with flowmeter accuracy specifications are many-folded. One important reason is from an economical point of view. The more accurate a flowmeter can measure, the more money you will save as the medium is measured with only very little inaccurately.

    Another reason is in terms of dosing, where a given amount of a medium is added. This must be done with a high level of precision and the accuracy is thus important in order to dose correctly. This is critical in certain industries such as in pharma or chemical.

    A third reason is in terms of billing purposes. By performing with good accuracy, you know exactly how much fluid flows into the process. Thereby, you are able to determine the right price of the product and thereby bill the customers correctly.

    Therefore, knowing how much that flows through your system is paramount in order to make a profitable and solid business. You need to rely on a precise measurement with good accuracy. However, good accuracy must be obtained not only in one measurement, but in all measurements independent of the time.

    Siemens
    01/21/2013
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