Posted on 26 February 2015 by Nick Denbow
The following is a press release which is actually from MTL Instruments, about a new Whitepaper describing Ex ic. So it is worth reading: don’t be put off by the corporate speak of the first paragraph!
Power management company Eaton has released a new whitepaper, Ex ic – Intrinsic Safety’s New Protection Level, that helps users and manufacturers understand more about Ex ic, the new intrinsic safety protection level for electrical apparatus in flammable environments. The paper is authored by Phil Saward, training and technical consultant, within Eaton’s Crouse-Hinds Division. Phil Saward has 25 years’ experience in hazardous area products and applications and has served time on various Foundation fieldbus.
The paper is available to download directly from http://www.mtl-inst.com/white-papers.
“The concept of a third level of protection for intrinsic safety has existed for several decades,” said Phil Saward. “Only in recent years has it been formally adopted into the major standards systems in common use worldwide. Meanwhile, other methods of protection have filled the gap. In particular, Ex nL has provided a workable, but somewhat loosely defined alternative until its recent withdrawal from international standards. The paper therefore covers the essential differences between Ex ic and Ex nL, and discusses the pros and cons of the two.
The whitepaper deals primarily with the impact on countries that follow IEC and ATEX practice – but there are parallels with the ‘non-incendive’ technique that is adopted in North America. The paper is aimed at those who are familiar with the principles of explosion protection for electrical apparatus, but will also appeal to readers who are responsible for compliance to the ATEX Directive and relevant IEC standards.
Topics covered include: What is Ex ic?; The position of Ex ic in the Intrinsic Safety family; Changes to the IEC standards; Why things are changing now; Background and links to the ATEX directive.
One of the most helpful elements of the whitepaper is the inclusion of a case study which demonstrates how the new Ex ic standard can fundamentally change the design of a Foundation fieldbus network, compared with implementations that were based on the Ex n standards. This practical illustration will help readers understand the potential impact in terms of network design and hardware selection.
Filed under: Company Press Release, Hazardous areas, Instrumentation, Networks and buses, Process Safety | Leave a comment »
Posted on 19 February 2015 by Nick Denbow
FANUC today announced the purchase of 695,000 square meters of land in Japan to increase production capacities for the installation of new CNCs, servo motors and servo amplifiers, as Europe’s demand for robots grows. Under the purchase agreement FANUC is purchasing land from the “Mibu-hanyuda Industrial Park,” with the first phase beginning in September 2015.
FANUC will also expand its laboratories situated in the Headquarters site including the construction of four new factories. With this expansion, testing equipment will be introduced to complement FANUC‘s expert knowledge, to continue to create new and innovative products.
Chris Sumner, vice president, FANUC Europe said: “One of the major reasons behind the increase in our production capacity at FANUC, is the high demand we’ve seen from European manufacturers. As factories look to implement more automation technologies within their manufacturing processes, many have realised the cost-saving potential and increased rate of production that this brings to their businesses. We’ve seen this reflected in our orders over the last twelve months, in the UK in particular we have seen orders increase across the board by over 50 per cent.”
Filed under: Company Press Release, Investments, Robot automation, Uncategorized | Leave a comment »
Posted on 10 February 2015 by Nick Denbow
Yokogawa Electric Corporation has announced a collaboration with Cisco Systems Inc to deliver the Shell SecurePlant initiative for Shell worldwide. SecurePlant is a comprehensive security management solution for plant control systems that was jointly developed as an initiative between Cisco, a leader in the IT industry, Yokogawa, a leader in mission-critical plant automation systems, and Shell. The three companies have agreed to proceed over the next three years with the implementation of SecurePlant at around fifty Shell plants globally.
Industrial producers around the world face a wide range of operational challenges in areas such as cybersecurity that pose a pervasive threat to safety and availability. Most companies with global operations, however, still take a relatively simplistic plant-by-plant approach, such as implementing operating system security patches and anti-virus pattern file updates. As a result, security levels tend to vary at each plant.
In the general practice of control system security management, individual control system vendors extensively validate security patches and anti-virus pattern files to confirm that they do not interfere with system operation, and then report the results to their customers for implementation. Since plants tend to use a variety of control systems and equipment from different vendors, occasionally with multi-generation platforms from a single vendor, this process is often complicated. For this reason, plants increasingly have a need for plant-wide integrated services that take a more holistic and efficient approach to the management of system security. With the aim of standardizing security practices at Shell plants around the world and minimizing control system vulnerability, Yokogawa and Cisco collaborated on the design of the SecurePlant service and will jointly provide deployment and operational services.
The SecurePlant solution is designed as a standard solution that consists of the delivery of OS patches and anti-virus pattern files for control systems and the provision of real time and proactive monitoring of solution delivery, as well as a help desk operation to manage this solution.
Supplier-certified Windows security patches and virus signature files are distributed from a SecureCenter to the SecureSite at each plant via Shell’s existing global network. The real time and proactive monitoring capabilities enable the centralized management of plant security. A customer help desk operated jointly by Yokogawa and Cisco is available 24/7/365 to manage solution related incidents.
Moving forward, Yokogawa and Cisco will continue to offer comprehensive security solutions involving the deployment, operation, and monitoring of control system environments. These services are applicable to plants of all sizes in a wide variety of industries, including facilities spread out over a large geographic area. In addition, both companies will leverage their technologies and experience to develop deep industrial automation (IA) solutions such as remote system maintenance, remote plant asset management and Big Data on the top of a secure remote access platform to help companies in making faster decisions, reducing total cost of ownership (TCO), and achieving operational excellence.
This press announcement was made at the ARC Forum in the USA on 10 February 2015: this year sees the 100th anniversary of the founding of Yokogawa.
Filed under: Company Press Release, Cyber-security, Oil and Gas Industry | Leave a comment »
Posted on 23 January 2015 by Nick Denbow
According to IHS Research, the new IE4 motors have rapidly carved out a space in the high efficiency motor market. While the majority of the world continues to transition to higher efficiency IE2, IE3 and NEMA Premium low-voltage (LV) motors, IE4 motors marketed to the industrial machinery market as “Super Premium Efficiency” motors have rapidly been accepted where the highest efficiency is important.
IHS consider that since 2009, this market has posted consecutive, double-digit growth rates and almost quadrupled in value in 2013 to reach $114.7 million with nearly 259,000 units shipped. Although a relatively small market compared to the entire global integral horsepower industrial LV motor market, this niche market for high efficiency motors is predicted to grow robustly to $297.3 million by 2018. IHS believes that growth in this LV motor market segment has been ignited by regional legislation for stand-alone LV motors, soon-to-be implemented systems efficiency legislation governing the efficiency of the motor driven system, and the general, increased focus in industrial segments on achieving the highest possible efficiencies.
ABB has launched a Synchronous Reluctance Motor (SynRM) and VSD package, which offers IE4 energy efficiency with accurate process control.
Synchronous reluctance motors combine the energy saving benefits of permanent magnet technology with the service-friendliness of an induction motor. The SynRM has no rotor windings, so there are virtually no power losses and the rotor temperature remains low, giving losses typically 40% below an induction motor. Lower temperatures also mean longer bearing life and longer re-greasing intervals, extending the maintenance interval.
SynRM is lighter, less expensive and easier to repair than a permanent magnet motor – yet gives the same performance levels. The motor is available in two packages: (1) a motor which is the same physical size as a standard IE3 induction motor but operates at the higher IE4 efficiency levels; or (2) the “High Output” model, which is two frame sizes smaller for the same power and IE3 energy efficiency.
The VSDs used to control the ABB SynRM motors deliver direct torque control, for highly accurate motor torque and speed; safe torque-off, giving reliable isolation for maintenance; and advanced programming tools – for fine-tuning to meet specific process requirements.
Filed under: Power efficiency, Process Hardware, Technology developments | Leave a comment »
Posted on 2 January 2015 by Nick Denbow
GE Oil & Gas has played a pivotal role in the global liquefied natural gas industry (LNG) with its systems used in the first ever large-scale production of Liquefied Natural Gas (LNG) from Coal Seam Gas (CSG) at the BG Group’s Queensland Curtis LNG (QCLNG) plant, on Curtis Island, off Queensland in Australia
GE technology of gas turbines, centrifugal compressors and generators are integral parts of the QCLNG facility that has now begun producing LNG for its first export shipment. “This is a historic milestone, not only for GE and our customer, BG Group, but for the oil and gas industry globally,” said Mary Hackett, GE Oil & Gas Regional Director for Australia, New Zealand and Papua New Guinea. “This conversion of CSG to LNG on a large-scale truly unlocks this resource and GE has been working closely with our customer to deliver solutions across the entire hydrocarbon delivery chain to achieve this.”
The first LNG milestone is part of GE’s long-term commitment to the QCLNG project, having signed a 22-year Contractual Service Agreement with QGC, BG Group’s Australian subsidiary and the operator of QCLNG, early in 2013 – which provides for a broad range of advanced technology services. Featuring reliability guarantees on the equipment, the GE scope of work includes planned and unplanned maintenance of the installed GE equipment, including 15 aeroderivative gas turbines, 28 centrifugal compressors, gearboxes, generators and all auxiliaries. The agreement also includes monitoring and diagnostic services.
As one of Australia’s largest infrastructure projects, QCLNG is part of the growing Australian LNG industry. Australia is expected to surpass Qatar as the biggest exporter of gas by 2020. The QCLNG plant is the first of three LNG projects to be constructed on Curtis Island, all of which will utilise GE technology. The resulting LNG will be primarily targeted for export markets including China, Japan and Singapore.
Filed under: Application story, Company Press Release, Hazardous areas, LNG, Oil and Gas Industry, Plant monitoring, Process Hardware, Technology developments | Leave a comment »
Posted on 22 December 2014 by Nick Denbow
The acquisition is intended to expand Emerson’s gas analysis portfolio, adding laser-based measurement analysers and systems for enhanced industrial emissions monitoring, production efficiencies and regulatory compliance.
Emerson has announced that it has acquired Cascade Technologies Ltd, based in Stirling in Scotland, UK, a leading manufacturer of gas analysers and monitoring systems using their Quantum Cascade Laser (QCL) technology. This innovative technology measures multiple gases simultaneously, helping companies improve industrial emissions monitoring, production efficiencies and environmental compliance.
Emerson is expanding its analytical measurement capabilities by adding this innovative laser technology to its Rosemount Analytical gas analysis portfolio. QCL technology provides a step change in gas analyser performance through its increased sensitivity, speed of response, and fingerprinting capability. These technology advances in the gas analysis market space provide a powerful solution for customers in various industries such as petrochemical, food and beverage, marine, automotive and pharmaceutical. Terms of the acquisition were not disclosed.
“The acquisition of Cascade Technologies is an exciting step as we further strengthen our gas analysis portfolio,” said Tom Moser, group vice president of Emerson Process Management’s measurement and analytical businesses. “Our customers depend upon Emerson to solve their toughest analytical measurement problems. We are now better positioned to serve that need.”
Dr. Iain Howieson, chief executive officer of Cascade Technologies, added: “Joining a global leader like Emerson represents an incredible opportunity for business growth. The Emerson global presence and market leadership will have an immediate impact on the adoption of cutting edge QCL gas analysers and monitoring systems.”
Filed under: Acquisitions, Company Press Release, Effluent Monitoring + Control, gas detection, Instrumentation, Optical sensors, Technology developments | Tagged: cascade, emerson, gas analysis, laser, spectral analysis | Leave a comment »
Posted on 19 December 2014 by Nick Denbow
Two years after the untimely death of Charles Lewis, the PR agency he founded, HHC Lewis, has continued its successful business relationship with a varied client list, one of which is Emerson Process Management. For around 20 years a team at HHC Lewis in Southampton has acted as the PR and advertising agency for Emerson across Europe, producing copy for editors under the guidance of US and European marketing, and ensuring a consistent advertising presence in published material. For the last two years the Emerson team and external responsibilities have been headed up by Adrian Chesney.
Cherie Pearce and Adrian Chesney
Now Adrian Chesney and Cherie Pearce, previously the Company Accountant, have led an MBO and are the new joint managing directors. Nick Taylor, Marketing Director for Emerson Process in Europe, is pleased to see HHC Lewis moving forwards, and hopes their excellent working relationship will continue in the future.
Pearce and Chesney bought the business without outside funding, having acquired the shares from the previous owner. They are now the company directors and joint owners and will lead the business. Chesney joined the agency seven years ago as a PR account manager and Pearce has been with the company since 1995.
Chesney said: “We are delighted to have the opportunity to guide the direction of HHC Lewis and enhance the enormous potential of our company. The HHC Lewis team has a wealth of experience and continues to develop innovative ways of serving our clients.”
Earlier this year the Agency relocated from offices adjacent to the Mayflower Theatre in Southampton, to a new office block in Southampton town centre. Other contact details remain the same.
Filed under: Acquisitions, Company Press Release, Company Reviews, Publishing | Tagged: European promotion, PR Agency, press releases | Leave a comment »