In the whitepaper, Ethernet Direct describes how PoE technology enables the end devices like Wireless Access Point, IP Phone, IP Camera, IP Access Control terminal, RFID reader and other IP-based appliances to get power supply from a Cat-3, Cat-5/5e or Cat-6 LAN cable without extra power connection needed.
A Complete Precision Pressure Measurement Handbook Covering the Fundamentals of Pressure Measurement, Deadweight Pressure Testers, Calibration of Deadweight Testers, AMETEK's Deadweight Testers, Manometers, Secondary Comparison Pressure Standards and the Selection of a Pressure Measurement Standard.
Manufacturers are under extreme pressure to increase operational efficiency as a means to increase reliability and maintain margins. Six Sigma is providing a powerful means for companies to improve performance. The use of this methodical, statistics-based approach is increasing across a range of industries. Those in the process industries are discovering the PI System can provide critical support to Six Sigma teams at every step of their effort. This paper discusses how to the PI System can support a Six Sigma initiative. QNI, an Australian minerals resource company, serves as an example.
It's now time to upgrade to a new HART Communicator. Your old hand held HART Communicator is obsolete and receives limited support. You shop around and find that it costs between $3000 and $7000 for a new hand held HART Communicator. A Google search reveals a PC based alternative. Will the PC alternative perform as required? What should you look for?
The PC based HART Communicator has been around for many years, but until recently it has not been able to replace the hand held HART communicator. The main reason is that it could not communicate at the DD level with all the devices in the DD library. Recent developments have eliminated that problem and now is a good time to review the capabilities of a PC based HART Communicator.
This paper describes an application of the IEEE 1588 standard to Industrial Automation. Key application use cases are identified that can benefit from time-based control techniques to improve performance results over traditional control methods. This paper will also briefly discuss how the 1588 standard may be adopted to suit these applications. Application problems specific to industrial automation are enumerated and candidate solutions described.
The purpose of this paper is to trace the history of the development of process control, advanced process control and related applied engineering technologies, and to discuss the reasons why the industry has encountered difficulties. This paper also presents some recommendations to improve the likelihood of successful APC project implementation, and make some predictions about the future direction of the technology.
Ethernet for industrial communications is growing rapidly in factory automation, process control and SCADA systems. The ODVA EtherNet/IP network standard is gaining popularity as a preferred industrial protocol. Plant engineers are recognizing the significant advantages that Ethernet-enabled devices provide such as ease of connectivity, high performance and cost savings. While EtherNet/IP has many advantages, cable installation is often expensive, and communications to remote sites or moving platforms may not be reliable or cost-effective.
Wireless Ethernet technologies have emerged that can now reliably reduce network costs while improving plant production. However, applying these technologies is not a simple matter as industrial Ethernet systems vary greatly in terms of bandwidth requirements, response times and data transmission characteristics. This paper will explore applying wireless technologies to EtherNet/IP based networks for industrial automation systems.
State Based Control is a plant automation control design based on the principle that all process facilities operate in recognized, definable Process States that represent a variety of normal and abnormal conditions of the process. State Based Control, implemented with the latest developments in object-based technologies, delivers direct benefits to its adopters in a variety of Operational Excellence categories. It results in productivity increases, higher asset utilization of both people and process, automated responses and recovery for abnormal conditions and provides an environment for knowledge capture directly into the control design.
Industrial enterprises must squeeze the most out of their assets in today's challenging business environment. The price of entry into many markets is operational efficiency plus effective, real-time reaction to changes in internal or external market conditions. Read this white paper to learn how you can boost your company's ROA by maximizing your asset performance strategy.
This white paper will explain the difference between traditional commercial controlled environments and harsh, industrial environments as well as the type of cabling and interconnectivity products to specify when designing networks for the later. Additionally this white paper includes information on the two popular standards for measuring and rating harsh environments, IP and NEMA.
What is Conformal Coating and why is it important in Industrial Ethernet switches?
In mission critical and harsh environments like where most Industrial hardened Ethernet switches are deployed, conformal coating acts as protection against moisture, dust, chemicals, and temperature extremes that if non-protected could result in a complete failure of the electronic system. These applications include mining, metal industries, oil & gas, military applications, chemical processing and food and beverage industries. For additional protection to address the demands of the environmental conditions, Ethernet Direct offers state-of-the art conformal coating on Industrial Ethernet switches that meets MIL-I-46058C standardEthernet networks will expand in time.
Conformal coatings encapsulate circuit boards and their electronic components in order to prevent the ingress of moisture, fungus, dust and other environmental contaminants. After the coating is made on the switches, it provides environmental and mechanical protection to significantly extend the life of the components and circuitry to meet the challenges in severe industrial environments.
Based on the increasing demands in various industries, customers' are deploying conformal coatings with expectations to increase the performance of the switch, ease of application, sustainability, quality, functionality, and environmental properties. All of the above expectations require special attention and procedure carried out by Ethernet Direct when manufacturing even single Industrial Ethernet switch in order to ensure that all conformal coated designed switches meet the expected standards. Ethernet Direct continuously to improve the environmental performance and offers conformal coatings Industrial Ethernet switches to enhance more specific demands in industrial applications.
A product may suffer from degraded life and accuracy if the PCB surface comes in contact with ionic substances, making it contaminated. The ionic substances can be in the form of fingerprint or humidity. Having applied conformal coating effectively reduces the effects of mechanical stress, vibrations or temperature changes when an Industrial Ethernet switch could be installed.
Optimum configuration for control system, instrumentation, electrical and condition monitoring of reciprocating compressor is presented. Reciprocating compressors are most flexible and most efficient available compressors. Recommendations regarding inter-stage pressure control, capacity control system, temperature control, performance monitoring, local control panel, irregularity and condition monitoring are discussed.
Installed reciprocating compressor horsepower is approximately three times that of centrifugal compressors and maintenance costs of reciprocating compressors are approximately three and half times greater than those for centrifugal compressors. The expected level of reliability and availability of reciprocating compressors is very high and it presents a real challenge. Advanced methods of control and condition monitoring shall be applied in order to obtain the high level of performance, safety and reliability.
Starting a power-generating unit involves bringing a plant from shutdown conditions to synchronization between the electrical generator and the transmission network or grid. Optimizing this process requires a careful balance which minimizes startup energy costs and limits plant damage. Traditionally, the startup of a coal-fired unit is performed manually by highly skilled operators. For RWE npower, however, an analysis of the startup methodology using the PI System from OSIsoft revealed significant variation in the company's techniques. Having identified the reasons for the variations, RWE npower then standardized and optimized the procedures to ensure that best practices were achieved for every startup.
Carbon-dioxide capture and storage (CCS) offers the potential for major reductions in carbon dioxide emissions of fossil fuel-based power generation in the fairly short term, and oxyfuel combustion is one of the identified CCS technology options. Foster Wheeler (FW) is working on reduction of carbon dioxide with its integrated Flexi-Burn dual-oxidant PC and CFB technology.
The proven high efficiency circulating fluidized-bed (CFB) technology offers a solution for carbon dioxide reduction both in re-powering and in greenfield power plants. CFB technology has the advantages of a more uniform furnace heat flux, excellent fuel flexibility and offers the opportunity to further reduce carbon dioxide emissions by co-firing coal with bio-fuels.
Development and design of an integrated Flexi-Burn dual-oxidant CFB boiler and balance of plant system was conducted in both air mode and oxyfuel mode. Through proper configuration and design, the same boiler can be switched from air mode to oxyfuel mode. The dual-oxidant CFB system incorporates features to maximize plant efficiency and power output when operating in the oxy-firing mode through firing more fuel in the same boiler.
Existing boiler design tools are being modified to incorporate the features of oxy-combustion, so that various design options can be evaluated. The 460 MWe supercritical CFB power plant (currently under construction by FW) has been used as the basis for an integrated Flexi-Burn dual-oxidant CFB study.
Foster Wheeler USA and Foster Wheeler Energia Oy, Finland
Energy and information are a significant and growing fraction of manufacturing costs and require lifecycle cost management. New facilities will have to be built and operated in order to conserve resources, and existing facilities will have to be upgraded cost effectively. This is not new economics, regulation, and innovation drive business economics but today the external environment is even more dynamic and requires an appropriate response.
There is little a user can do about regulation, epoch technology breakthroughs, or market changes except monitor their effect and be prepared to change their business strategy; improved management of energy and information, however is under their control.
This white paper provides a description of the utility market, the changes that we can expect, and the reasons behind these changes. It also describes guidelines for the industrial user to develop a dynamic energy response.
Dr. J. Patrick Kennedy, PhD. President and CEO of OSIsoft
Reliability of electronic circuit boards and electronic devices of console of drilling units are investigated. This new analytical method confirms modification of electronic device dynamic behaviour which installed in console of drilling unit. It is in agreement with experimental results which show electronic circuit board failure in driller console when dynamic loading is considerably less than values required to affect the board when board itself , lonely, is under vibration test.
Majority of failures of electronic equipment, instruments, sensors and sensitive devices are mechanical in nature. Typical failures caused by break, crack and creep. It is often quite difficult to determine main cause of malfunction and failure. Dynamic and vibration loads caused very large percent of sensitive equipment failures which installed in dynamic environment. Vibration failures are often difficult to trace. Usually resonance situations and coupling effects are involved. Sometimes it does not appear to be any connection between failed parts and vibration loadings.
The dynamic behaviour of electronic and electric device is a subject that has received considerable attention due to its technical importance. Analysis of electric / electronic devices or circuit boards under dynamic loading was presented previously. But only a limited number of contributions have been published on counteraction effects of complex systems (in this case drilling unit) and these devices. New analytical formulations to study modified dynamic behaviour of sensitive devices in a complex system (drilling unit) is presented. When a circuit board or electronic device is installed in a driller console, there will be complicated interactions between its dynamic characteristics and drilling unit dynamic behaviour. There are different dynamic responses and consequently much more possibilities of resonance. Electronic devices and electronic circuit boards are vulnerable against dynamic loading. For example for a drilling unit revamp project, vibration tests were conducted on electronic circuit board in a broad frequency range and with high vibration amplitudes. Tests were repeated however no damage was observed. During drilling unit site performance test, failure of electronic circuit board was occurred because of mechanical damage. The dynamic loading amplitude was considerably less than amplitude in vibration tests. Extensive investigation shows that failure was only due to modified dynamic behaviour of system.
Todays businesses are struggling to find new channels for growth, improve operational efficiency, reduce the cost of energy, and provide a structure for timely decision-making. This paper proposes a framework from which management can develop an energy management strategy.
Ethernet is penetrating ever deeper into distributed control systems to provide real-time control with direct connectivity to a wider range of devices while the insatiable demand for speed (e.g. 10/40/100G) from commercial applications are driving continual advancements in Ethernet technologies.
This expanded deployment of Ethernet in manufacturing has triggered convergence of disparate network technologies over a single Ethernet-based infrastructure, and this trend has left the controls engineer with new and more choices regarding how to specify and install the necessary network physical infrastructure. It becomes clear that network convergence continues unabated, thereby generating new and expanded network physical infrastructure options.
Applicable Product: V1000, A1000, E7, F7, G7, and P7
(V/f Motor Control Method)
The techniques for braking of high inertial loads to a stop traditionally involved either Dynamic Braking or DC Injection Braking technology.
This article examines a new load-braking alternative called High-Slip Braking (HSB). We identify the different aspects of HSB, look at what it does, how it works, and how it is different from other braking methods. We also provide examples of real world successes, and discuss the new technologys cost effectiveness.
Mike Rucinski & Paul Avery, Yaskawa Electric America, Inc.