Unlocking the value of cross-facility data sets.

29/04/2016

The great migration: cloud computing for smart manufacturing
By Martyn Williams, managing director at COPA-DATA UK.

According to this industry survey by IBM, two thirds of mid-sized companies have already implemented – or are currently considering – a cloud based storage model for their organisation. The analytic advantages of cloud computing in industry are no secret, in fact, 70 per cent of these cloud-using respondents said they were actively pursuing cloud-based analytics to gleam greater insights and efficiency in order to achieve business goals

Copa_Cloud_MigrationFor the manufacturing industry, the benefits of migrating to cloud computing have been heavily publicised, but in an industry that has been slow to embrace new technology, a mass move to the cloud can feel like a leap in the unknown. Despite an increased adoption of smart manufacturing technologies, some companies may still feel hesitant. Instead, many decide to test the water by implementing a cloud storage model in just one production site. However, this implementation model can only provide limited benefits in comparison to a mass, multi-site migration to the cloud.

So what should companies expect to undertake during their cloud migration?

Define business objectives
Before migrating to the cloud, companies should first consider how it can help them achieve -and in some cases refine – their business objectives and plan their migration with these objectives in mind. For businesses that want to improve collaboration and benchmarking across multiple locations, for example, the cloud plays a significant role.

A company with multiple production sites operating in several locations will be familiar with the complications of cross-facility benchmarking. Often, business objectives or key performance indicators (KPIs) are only set for single site locations. In an ideal situation, the business objectives have to be coordinated across all locations to offer a clear, company-wide mission.

To achieve better collaboration and transparency across sites, companies can resort to using a cloud storage and computing application that gathers all available production data (from multiple production sites) in one place. Certain individuals or teams in the company can be granted access to relevant data sets and reports, depending on their responsibilities within the organisation.

Determine the ideal status
Once a business objective is clear, companies should identify what the ideal status of each process is. By using production data and energy information stored and analysed in the cloud, a company can gain insight on productivity, overall equipment effectiveness (OEE), energy usage and more. This insight helps companies make changes that will bring the existing production environment closer to the ideal status.

Combined with the right SCADA software, the cloud unlocks rich company-wide data sets. By bridging information from different facilities in real-time, the software generates a bird’s eye view of company-wide operations and detailed analysis of energy consumption, productivity and other operational KPIs. This makes it easier for a company to monitor progress against the original business objectives and scale up or down when necessary.

Already, a large number of manufacturers are using industrial automation to speed up production and increase efficiency. With the large scale adoption of intelligent machinery, cloud computing is poised to become the obvious solution to store and manage the complexity of data this industry connectivity creates.

Unlike the restrictions associated with on-premises storage, cloud based models provide unlimited scalability, allowing companies to store both real-time and historical data from all production their sites and integrate any new production lines or sites to their cloud solution in a seamless manner. When accompanied with data analytics software, like zenon Analyzer, cloud computing can help companies prevent potential problems in production and even ignite entirely new business models.

Continuous improvement
For manufacturers with strict energy efficiency and productivity targets, easy access to company-wide data is invaluable. However, the knowledge provided by the cloud does not end with past and present data, but also gives manufacturers a glimpse into the future of their facilities.

By using the cloud, companies can implement a long-term continuous improvement strategy. Often, continuous improvement will follow the simple Plan-Do-Check-Act (PDCA) model often used in energy management applications. This allows companies to make decisions based on data analytics and to evaluate the effectiveness of those decisions in the short and medium run.

Using data collected from industrial machinery, companies can also employ predictive analytics technology to forecast why and when industrial machinery is likely to fail, which also means they can minimise costly downtime.

Predictive analytics allows manufacturers to identify potential problems with machinery before breakdowns occur. Avoiding expensive overheads for production downtime and costly fines for unfulfilled orders, the priceless insights predictive analytics can provide is the obvious solution to such costly problems.

Converting from the safe familiarities of on-premises storage to an advanced cloud model may seem risky. As with any major business transition, there is bound to be hesitation surrounding the potential problems the changeover could bring. Before making a decision, companies should closely assess three things: business objectives, how the cloud can help them achieve the ideal status across one or multiple production sites and how it can help them continuously improve in the long run.


#EmrEX: All change at Brussell Centraal.

18/04/2016
Emerson User Group EMEA in Brussels, Belgium – 12th – 14th April 2016

“Seems to me that #EMrex is focusing not so much on new technologies, though important, but looking closer at how we do things.”  our tweet on day one.
Cfrpq9-UUAE8qVi

Brussels looked lovely on the morning that the Emerson User Group meeting opened. There was little to suggest the trauma that the city had faced just a few short weeks previously as delegates strolled through the sun-lit streets to the conference centre. The security however was markedly tighter as we entered the building however with strict adherence to the best security practices. However once inside the building things were as normal.

Other Reports (as they appear)
Operational Excellence at Emerson Exchange Brussels (Emerson’s Stuart Turner – 20/4/2016).  Nick Denbow ‘s travel travails: My worst week as an air traveller!  (30/4/2016)

Speaking with the organisers it promised to be a bumper event, stretched as it was over three days examining all aspects of automation, experiences, applications and of course exciting new products and concepts. The attendance was slightly down on the last time in Stuttgart, some were reluctant to travel, others were unable to make it due to the inability of the severely damaged to adhere to a normal service. Those who attended were in part in broad agreement with the message penned by Emerson’s Travis Hesketh – Standing up for Brussels. Indeed the User Group very quickly confirmed after these terrible events that they were going ahead with #EMrex. At several of the social events at the periphery, like the evening reception for publishers and journalists the people who suffered were remembered.

The venue was a modern conference and the one hundred or so presentations and industry forums were stretched over about six floors including an exhibition floor and at the very top of the building was a cyber café and a wonderful panoramic hall with the breathtaking view (featured at the top of this page from a tweet by Emerson’s social media guru – Jim Cahill)

But on to the the meeting!

Peter Iles-Smith of GlaxoSmithKline opened proceedings as chair of the Users Exchange Board. He welcomed the over two thousand delegates from so many countries through out the EMEA who travelled for the event.

Steve_SonnenbergSteve Sonnenberg, President Emerson Process Management (pictured right) and Roel VanDoren, their President in Europe, in a joint presentation entitled “New Reality, New Opportunity” addressed the changes and challenges facing companies in the 21st Century. They did not talk about products or applications but on ways of doing things. Indeed during the presentation we tweeted: “Emerson’s approach – yes equipment, but more importantly perhaps is attitude or culture.”

Nobody does business the way they it was done even twenty years ago, when the internet was a baby and nobody imagined never mind thought possible social media platforms like twitter,  yet in many cases industry is way behind in adapting to change. Possibilities are there which were inconceivable a short time ago and these need to be harnessed for the good of humanity.

Research into these possibilities, new technologies are leading to changes especially the importance of planning including all stakeholders at the earliest opportunity. This thinking is leading to an innovative technology and engineering-based approach for improved capital efficiency such as their Project Certainty approach  which aims to tackle complexity by decoupling the dependencies suppliers have on each other, eliminating bottlenecks and allowing concurrent work streams. In a word it aims to transform capital investment and releasing the frightening amounts of money currently being lost in big and not so big projects.

And these figures are frightening. If the type of approach spoken of here is adopted savings of up to €400 Billion (yes BILLION) would be released to invest in, for instance,  production, reliability, safety, energy, training, security and innovation.

So what is involved?

Xavier_MarchantXavier Marchant, (right), Emerson’s Vice President Process Systems and Solutions in Europe, gave dramatic examples of the possible savings in labour and materials. For instance the decision to use smart junction boxes in a large project could save both money and space (95% in control room space). Spare parts are another area where there is phenomenal waste. He quoted a spokesman from a International Energy and Chemical Company, “On our last construction project we overspent on maintenance spares to the tune of €50,000,000…we just wrote it off….because we did not have a robust spares analysis process.” Reduce the complexity by the involvement of stake holders at the start of planning for a project and allowing them to develop it side by side. One simple idea is to separate software from hardware in the development. The “old way” is to tie them together from the start whereas this way the software can be developed using virtual systems and then later on when the actual operation is seen to work in the virtual world (he called it virtual FAT – Factory Acceptance Test) it may be introduced to the real or concrete world – or “late binding” as he called it.

vFAT
Virtual FAT has far less chance of harming one than the real thing?

He quoted  François Davin of Sanofi “Emerson’s Remote Virtual Office allowed us to collaborate with experts and resources from multiple sites to conduct our Factory Acceptance Test (FAT). The result was less travel and site disturbance to our operations. Also, more operators could participate remotely which improved the new automation system adoption.”

We were introduced to the concept of  quartile performance and their site Top Quartile Performance is a exposé of how they view this as a concept and how it is influencing their thinking as a group.

Peter_Zornio

Of course all these changes would be impossible without the availability and enthusiastic embracing of the so-called “new” technologies. Peter Zornio (right), Emerson’s irrepressible Chief Strategic Officer, gave us an insight into these and how the company is using these and its co-operative involvement with the pioneers in these , the Internet of Everything(CISCO),  Industrial Internet (GE), Smart Planet (IBM) and The Internet of Things (Microsoft). These technologies, and others embryonic or not even conceived of are guiding  the current and future development of technology used in the manufacturing and processing sectors.

Keynotes: The Emerson User Exchanges whether in the USA or EMEA always have exciting and inspirational keynote speakers each day. This event was no exception. Jack Uldrich, a futurist spoke about future-proofing business. The majority of businesses are not ready for what is happening in the real world or for the speed at which it is happening.

Another of these speakers Prof Jan Rotmans who spoke about change. He maintains that we are not living through an “era of change” as a “change of era!” Many of us are in the old era, our mobile phone is just that, we read newspapers, buy books in bookshops. Our kids live on their mobile phones, they are their liveline. We are “old-fashioned” our kids are “cool!” Change is disruptive and the old ways are totally unable to cope. The old top-down certainties are dissolving and the “common man” is taking charge, sometimes violently. Chaos is the name of the game.

Finally a veteran at EmrEX, David Beckman, brought all the thoughts and ideas of New Reality, New Opportunity together. In view of Rotmans’ talk earlier the title he chose was more than relevant as he introduced delegates to the “Worst Case Scenario Survival Handbook.” Although he prepared us for worst case scenarios he described real opportunities for industrial automation.

Presentations. The various threads were divided into five headings or sectors, Business & Projects; Operate Safely, Securely and Legally; Process Optimisation; Maintenance & Reliabilitym and, Control System Applications & Migrations and were held through each of the days.

Forums: There were also Industry Forums with panels and general discussions on the various specialities e.g. Life Sciences or Refining & Petrochemicals. These were opportunities for participants to learn and exchange information and experiences with each other.

Training: There were also training  sessions and other sessions (called Roadmaps) on Emerson products and possible future developments.

projcertExpo

ExpoEmrEx16274Solutions EXPO: Of course no event is complete without actually seeing product and EmrEX is no exception. The floor was divided under the same zone headings as the threads of presentations above. (See sketch on left).

There were several unique exhibits. One was the Operations Centre of the Future. This was an imaginative presentation of a plant with a H.A.L. like computer responding (or not) to commands or requests from the operatives. It featured a drone delivery of spare parts and a really effective alarm situation which featured a realistic vibration of the floor. Of course the real message is that though it is the future most of the technology used is possible today.

Of course the Project Certainty concept featured prominently in the Business & Projects area and we were show possible scenarios. They had also rather bravely set up a wall where delegates could post what they consider are the features that should be addressed in projects. This should help “to focus ruthlessly on what’s directly relevent to a company strategy.”

Of course there were actual instruments on display to examine and handle.

Ind1stNotable was this industry first, the Rosemount X-well system, a wireless transmitter, accurately measuring process temperature without need for thermowell. Accurate process temperature measurement is possible without requiring any intrusions or penetrations into the process, allowing for quicker and easier installation along with simplified long-term maintenance. Users do not have to design, size or maintain thermowells. Wake Frequency Calculations are eliminated, as well as time spent determining material compatibility, the right insertion length and the necessary profile.

pressure_gaugeAlso the new Emerson Wireless Pressure Gauge created quite buzz among delgates. Th“This new gauge design fundamentally will change how customers use pressure gauges by helping them make better business decisions!”  It is another industry first. Does this signal the end of the Bourdon Tube?

Energy management is of course critical in all processes. It is effected not only by cost factors but also by legislation driven by concerns on pollution and global warming. Here Emerson demonstrated some prototypes of monitoring and control equipment not yet available. They emphasised savings on space occupied and of course ease of use by operatives.

Jim_CahillAnother very popular item was on the Maintenance & Reliability Zone. Here was an opportunity to experience the immersive training simulator. A goggle like apparatus was placed on the head and using a game-like hand piece the engineer is able to travel through a plant and see where various problems may be without any danger to him or her. It is a fascinating experience and one really feels that one is travelling through the plant rather than sitting or standing in a control room or office.  In this picture we see Emerson’s Chief Blogger, Surface Dweller, Head of Social Media enter the virtual world for real! We can confirm that he returned to real reality afterwards.

Around the periphery of the EXPO were the booths of companies which compliment the Emerson offering – what they call their complementary and strategic partners.

history-passageThere was also a section dedicated to history featuring milestones in science and automation over the years. It was a demonstration of change in the past. What will feature in future shows? The new opportunities taking advantage of the new realities of the past.

Always a major highlight of the Emerson User Group events is waht the call the “Networking Event.” This year was rather unique in that it was a visit to the Museum of Fine Arts and the Magritte Museum. This was an unique opportunity to see the best of Belgian painters – creativity of a different type than that extolled during the day sessions. Artists such as the Brueghels, Rubens, Jordaens and Magritte were enjoyed during this evening. Food and beverages were served – Belgium is famous for its beers of course but it also has its own cuisine and of course it’s chocolate is to die for.

This years event, despite the unexpected difficulties, was on a par, indeed because of these difficulties had perhaps more user participation than previous ones. There were many exciting things to see, concepts to understands and friends with which to share experiences.  And of course fun with a capital F.

Look at this and tell me people weren’t enjoying themselves! (Twitter pic ‏@Julian_Annison)

CgARbxJWQAAV7Vc

Emerson’s Travis Hesketh and Nick Taylor appreciating (?) art.


Our unedited photos from the conferenceon the Read-out Facebook page.

Follow on twitter #EmrEX

The videos here give an impression of each day:
Day One


Day Two


Day Three

• We have written about our travelling experiences to and from Brussels in our personnel blog (Sa Bhaile: (“Home” in Irish). These were relatively smooth if labourious but there is indeed no comparison to the experiences of Nick Denbow of ProcessingTalk which he outlines on their blog: My worst week as an air traveller! 


Previous EmrEX EMEA Events.
2014: Stuttgart: Revving up in Stuttgart!
2012: Duesseldorf: Automation returns to Düsseldorf!

All our reports on EmrEX Events (including North America).


#EMrex #PAuto @EmersonExchange @EmersonProcess #PAuto #IoT

Food & Pharmaceutical Futures.

21/03/2016

ISA’s first international symposium outside of North America is adjudged a success.

centreview

From the time it was firsted mooted for Ireland in 2015 the planning for the 3rd ISA Food & Pharmaceutical Symposium was embraced with enthusiasm by the local Ireland Section. This was in Philadelphia early in 2015  and since then the ISA’s Food & Pharma Division under the able directorship of Canadian Andre Michel has ploughed forward overcoming setbacks and the not inconsiderable distances between North America and the capital of Munster. Chair of the symposium and former Ireland Section President, Dave O’Brien directed a strong committee charged with ensuring the this, the first such international symposium organised by the ISA outside of North America would be a resounding success.

And it was.

Venues were assessed, speakers recruited and the various minutiae associated with organising an international event were discussed, duties asigned and problems solved over many late night transatlantic telephone conferences. Using the experience of the ISA staff in North Carolina and the many years experience of organising table-top events and conferences in Ireland by the Ireland Section a very creditable event was staged at the Rochestown Park Hotel. With some justification the Symposium Chair could state before the event started “We have assembled a truly outstanding program this year, featuring some of the world’s most accomplished experts in serialization, process optimization, cyber security and alarm management to name a few. These experts will speak on the vital issues affecting food and drug manufacturers and distributors. We are delighted to have the opportunity to bring this event to Ireland for its first time outside of the United States!” Indeed upwards of 200 registrands attended the two day event and it was notable that the bulk of these stayed until the final sessions were completed.

• All through the event highlights were tweeted (and retweeted on the Ireland Section’s own twitter account) with the hashtag #FPID16. See also the ISA official release after the event: Food & Pharma symposium almost doubles in size!

day1e

ISA President Jim Keaveney (3rd from right) with some of the speakers ath the FPID Symposium

Technology and Innovation for 2020 Global Demands
Two fluent keynote speakers, Paul McKenzie, Senior Vice President, Global Biologics Manufacturing & Technical Operations at Biogen (who addressed “Driving Change Thru Innovation & Standards”) and Dr Peter Martin, VP and Edison Master, Schneider Electric Company (Innovation and a Future Perspective on Automation and Control) may be said to have set the tone. The event was also graced with the presence of ISA Internationa President for 2016 Mr Jim Keaveney.

We will highlight a few of the sessions here!

Serialization:
The important subject of serialization which affects all level of the pharmaceutical business especially in view of deadlines in the USA and the EU. From an overview of the need and the technology to a deep dive into the user requirements, this session provided the latest information on the world requirements and helping provide the solution needed in each facility. Speakers, as in most sessions, were drawn from standard, vendor and user organisations as well as state enforcement agencies.

Track & Trace:
In the parallel Food thread of the symposium the role of track and trace technologies were examined. Product safety, output quality, variability and uniqueness of customer requirements manufacturers are facing increasing demands on the traceability of raw materials, real-time status of manufactured goods and tracking genealogy of products throughout the value chain from single line to the multiple sites of global manufacturers. The evolution of data systems and technologies being offered means greater benefits for Industry and presenters Vision ID and Crest will show these solutions and the advantage of modernization.

 

day1a2Both threads came together for much of the event mirroring the similarity of many of the technologies and requirements of each sector.

Digitalization:
Digitalization in industry shows what bringing the worlds of automation and digitalization together provides true and advanced paperless manufacturing with more complex devices and interconnected data systems. This is an enabler to integrated operations within industry. Using MES as a core concept to create a Digital Plant and optimized solutions with data driven services was explained. And a practicale example of a plant was discussed showing the journey to paperless manufacturing and a real pharmaceutical strategy of integrating automated and manual operations.

 

eric_cosman

Eric Cosman makes a point!

Cybersecurity:
Of course this is one of the key topics in automation in this day and age. Without implementing the proper preventative measures, an industrial cyber-attack can contribute to equipment failure, production loss or regulatory violations, with possible negative impacts on the environment or public welfare. Incidents of attacks on these critical network infrastructure and control systems highlight vulnerabilities in the essential infrastructure of society, such as the smart grid, which may become more of a focus for cybercriminals in the future. As well as threats from external sources steps ought to be taken to protect control and automation systems from internal threats which can cripple a company for days or months. This session highlighted the nature of these threats, how systems and infrastructure can be protected, and methods to minimize attacks on businesses.

 

Automation Challenges for a Greenfield Biotech Facility:
These were outlined in this session in the pharmaceutical thread. Recent advances in biotechnology are helping prepare for society’s most pressing challenges. As a result, the biotech industry has seen extensive growth and considerable investment over the last number of years. Automation of Biotech plants has become increasingly important and is seen as a key differentiator for modern biotech facilities. Repeatable, data rich and reliable operations are an expectation in bringing products to market faster, monitor and predict performance and ensure right first time delivery. This session provided the most topical trends in automation of biotech facilities and demonstrated how current best practices make the difference and deliver greater value to businesses.

Process Optimization and Rationalization:
Meanwhile in the Food & Beverage thread incremental automation improvement keeps competitiveness strong. Corporate control system standardization leads to constant demand for increases in production and quality.

Industry 4.0 (Digital Factory: Automate to Survive):

Networking

Networking between sessions

The fourth industrial revolution is happening! This session asked how Global Industry and Ireland are positioned. What did this mean to Manufacturer’s and Industry as a whole? The use of data-driven technologies, the Internet of things (IoT) and Cyber-Physical Systems all integrate intelligently in a modern manufacturing facility. Enterprise Ireland and the IDA headlined this topic along with the ICMR (Irish Centre for Manufacturing Research) and vendors Rockwell and Siemens.

OEE and Automation Lifecycle: Plant lifecycle and Operational Equipment Effectiveness

Networking2

More networking

Worldwide today many of the over 60 Billion Euro spend in installed control systems are reaching the end of their useful life. However, some of these controls, operational since the 80’s and 90’s, invested significantly in developing their intellectual property and much of what was good then is still good now. Of course some aspects still need to evolve with the times. This requires funding, time and talent. For quite some time now there has been a skilled automation shortage at many companies leading organizations to outsourcing, partnerships and collaboration with SME’s to help manage the institutional knowledge of their installed control systems. With corporate leadership sensitive to return to shareholders, plant renovation approval hurdle rates are usually high when it comes to refreshing these control systems. In many manufacturing facilities, engineers and production managers have been asked to cut costs and yet still advance productivity. To solve this dilemma, many world class facilities continue to focus on driving improvements through the use of automation and information technology. Some are finding that using existing assets in conjunction with focused enhancement efforts can take advantage of both worlds. Here we were shown great examples of where innovation and such experiences are helping to create real value for automatio modernization.

 

day1b2

Alarm management:
And of course no matter how sophisticated systems are Alarms are always require and neccessary. DCSs, SCADA systems, PLCs, or Safety Systems use alarms. Ineffective alarm management systems are contributing factors to many major process accidents and so this was an importan session to end the symposium.

The social aspect of this event was not forgotton and following a wine reception there was a evening of networking with music at the end of the first day.

Training Courses:
On the Wednesday, although the symposium itself was finished there were two formal all day training courses. These covered, Introduction to Industrial Automation Security and the ANSI/ISA-62443 Standards (IC32C – Leader Eric Cosman, OIT Concepts ), and Introduction to the Management of Alarm Systems (IC39C – Leader Nick Sands, DuP0nt). These, and other, ISA courses are regularly held in North America and the Ireland Section occasionally arranges for them in Ireland.

All in all the Ireland Section and its members may feel very proud in looking back on a very well organised and informative event which in an email from one of the attendees, “Thank you all, It was the best symposium I attended in the last 10 years!”

Well done!

day1c

#FPID16 #PAuto #PHarma #Food

Wireless I/O vs. Wireless Distributed I/O.

14/02/2016

We all know that one of the biggest challenges to connecting legacy or remote equipment to the network is the cost of running wires. If you have an indoor application, you have to run conduit and wires to the devices you want to monitor or measure. In most cases it is just too painful and expensive. Outdoors, there are trenches to dig, cables to bury underground and the permits…don’t forget about the time it takes for permitting. What if the equipment you need to connect to is across a major street or parking lot? That would mean more costs and permits to tear up city streets. Many times it just isn’t feasible to run conduit between items like water pumps, generators or chillers and your control room. But, how are you supposed to get to the data in this equipment?

prosoft IO.jpg_ico500There is the traditional method of installing a wireless Distributed I/O system using Ethernet radios. Depending on the application, this would work just fine. However, it can be a daunting process that involves costly downtime. And we all know that downtime doesn’t pay the bills.

“With a Wireless I/O system from ProSoft Technology, the cost, hassle and expensive downtime of installing wire goes away.”

What is the difference between Wireless I/O and Traditional Distributed I/O with an Ethernet Radio?
A traditional distributed I/O system using an Ethernet radio requires plant operators to support network communications and program a data communications network. Not so with ProSoft Technology’s Wireless I/O.

Wireless I/O, sometimes referred to as a Wireless Terminal Block, is a simplified form of wireless communication designed to make reliable, secure connections between two locations. Unlike data radios, the Wireless I/O system requires no software to program or network protocol to configure. The Wireless I/O radios are sold in pairs, already programmed to connect to one another. The I/O signal sent between the radios is encrypted with 128-bit AES encryption to make sure only the paired radio on the other end can read the information. The individual I/O modules read the physical signals from the machine – 24VDC digital signals, 0-10V or 4-20mA analog signals – and send that information to a corresponding I/O module at the other end. The corresponding module simply reproduces the signal on its output terminals. The digital I/O module has 4 digital inputs and 4 digital outputs, while the analog modules each have two inputs and two outputs. The system is bi-directional, so each radio can send inputs to and receive outputs from the other. Each radio pair can support 16 I/O module pairs, for 64 digital inputs and outputs or 32 analog inputs and outputs.

Because the system only needs to handle a small amount of data, the wireless I/O radios use a technique called “frequency hopping spread spectrum” modulation. This method is ideal for reducing potential interference from other radio signals in the area and provides very reliable transmission of the I/O signals. The radios are available in either 2.4 GHz or 900 MHz versions. By default, the system transmits the status of its I/O once per second. A “Turbo Mode” option boosts the update rate to as fast as 10 times per second.

Typical Example of a Wireless I/O System
Let’s consider an application with a storm water retention system including pumps and valves, several hundred meters from the control room. The building maintenance team wants to gather information about the storm water system, such as basin water level, pump status, and outflow rate. Digging a trench from the building to the basin control panel could easily cost USD 10,000, even more if the path requires trenching through parking lots or roadways. If you add the cost of cabling and conduit, the project cost quickly exceeds the benefit of bringing the data into the control system.

With ProSoft Technology’s Wireless I/O, this type of project becomes much easier and much less expensive! Using the pre-paired radios, the building maintenance team can install input and output cards right in the cabinet with the basin control equipment. With the wireless I/O there is no need for the basin control equipment to support network communications, and no need for the installer to program a data communications network to make it work.

So, if you have abandoned the idea of gathering information from hard-to-reach or remote equipment in the past…think again. ProSoft Technology’s Wireless I/O system is an easy and cost-effective way to bring your data back into your control system for analysis and action, and most importantly, an increase in your bottom line.


Future factory – a moderator’s impression!

01/02/2016

Read-out was asked to moderate the automation stream at the National Manufacturing & Supplies conference held last week outside Dublin. (26th January 2016). In their wisdom the organisers selected “Future Factory!” as a title for this half day seminar and there were 11 speakers organised to speak on their particular subjects for about 15 minutes each. This was replicated in the the over a dozen different seminars held on this one day.

q#MSC16

Long queues lasted well into the morning to enter the event!

We were a little sceptical that this would work but with the help of the organisers and the discipline of the speakers the time targets were achieved. Another target achieved was the number of attendees at the event as well as those who attended this particular seminar.
In all between exhibitors, speakers and visitors well over 3000 packed the venue. Probably far more than the organisers had anticipated and hopefully a potent sign that the economy is again on the upturn. Indeed it was so successful that it was trending (#MSC16) on twitter for most of the day.

Seminar
But back to our seminar. If you google the term Future Factory you get back 207million links, yet it is difficult to find a simple definition as to what it means. The term automation similarly is a very difficult term to define though the term in Irish “uathoibriú” perhaps is a bit clearer literally meaning “self-working.”

uturefactory.jpg

Good attendance at the Seminar

Background
The world of automation has changed to an extrordinary degree and yet in other ways it remains the same. The areas where it has experienced least change is in the areas of sensing – a thermometer is a thermometer – and final control – a valve is a valve. Where it has changed almost to the point of unrecognisability is in that bit in the middle, what one does with the signal from the sensor to activate the final control element.

From single parameter dedicated Indicator/Controller/Recorders in the sixties which transmitted either pnuematically (3-15psi) or electrically (4-20mA). Gradually (relatively speaking) most instruments became electronic, smaller in size and multifunctional. The means of communication changed too and fieldbus communication became more common to intercact with computors which themselves were developing at breaknech speed. Then transmission via wireless became more common and finally the internet and the ability to control a process from the computer that we call the intelligent phone. There are problems with these latter, internet/cellphone, of course. One is that the reach of the internet is focussed at present on areas of high population. Another is the danger of infiltration of systems by hostile or mischivous strangers. The importance of security protocols is one that has only recently been apparent to Automation professionals.

• Many of the presentations are available on-line here. The password is manufac2016

The Presentations
Maria Archer of Ericsson spoke on the enabling and facilitating IoT in the manufacturing industry. Diving straight into topic she drew on her experience of big data, e-commerce, media, cyber security, IOT and connected devices.

The second speaker was Cormac Garvey of Hal Software who addressed Supply Chain prototyping. The Supply Chain ecosystem is incredibly complex, usually requiring significant integration of each suppliers’ standards and processes to the manufacturer’s. Cormac will introduce the concept of supply chain prototyping, where easy-to-use, standards-based technology is used to wireframe out the entire supply chain ecosystem prior to integration, thus significantly reducing cost, time and risk on the project. This wireframe can then be used as a model for future integration projects.

Two speakers from the Tralee Institute of Technology, Dr. Pat Doody and Dr. Daniel Riordan spoke on RFID, IoT, Sensor & Process Automation for Industry 4.0. They explained how IMaR’s (Intelligent Mechatronics and RFID) expertise is delivering for their industrial partners and is available to those aiming to become a part of Industry 4.0.

Smart Manufacturing – the power of actionable data was the topic addressed by Mark Higgins of Fast Technology. He shared his understanding of the acute issues companies face on their journey to Business Excellence and how leveraging IT solutions can elevate the business to a new point on that journey.

Assistant Professor (Mechanical & Manuf. Eng) at TCD, Dr Garret O’Donnell,   explained how one of the most significant initiatives in the last 2 years has been the concept of the 4th industrial revolution promoted by the National Academy for Science and Engineering in Germany- ACATECH, known as Industrie 4.0. (Industrie 4.0 was first used as a term in Germany in 2011).

Another speaker from Fast Technologies, Joe Gallaher, addressed the area of Robotics and how Collaborative Robots are the “Game Changer” in the modern manufacturing facility.

Dr. Hassan Kaghazchi of the University of Limerick and Profibus spoke on PROFINET and Industrie 4.0. Industrial communications systems play a major role in today’s manufacturing systems. The ability to provide connectivity, handle large amount of data, uptime, open standards, safety, and security are the major deciding factors. This presentation shows how PROFINET fits into Industrial Internet of Things (Industrie 4.0).

White Andreetto

Maurice Buckley CEO NSAI

The CEO of NSAI, the Irish National Standards Authority, Maurice Buckley explained how standards and the National Standards Authority of Ireland can help Irish businesses take advantage of the fourth industrial revolution and become more prepared to reap the rewards digitisation can bring.

The next two speakers stressed the impact of low forecast accuracy on the bottom line and how this coulbe be addressed. Jaap Piersma a consultant with SAS UK & Ireland explained that low forecast accuracies on the business performance is high in industry but with the right tools, the right approach and experienced resources you can achieve very significant result and benefits for your business. Following him Dave Clarke, Chief Data Scientist at Asystec, who mantains the company strategy for big data analytics service development for customers. He showed how are incredible business opportunities possible by harnessing the massive data sets generated in the machine to machine and person to machine hyper connected IoT world.

The final speaker David Goodstein, Connected Living Project Director, GSMA, described new form factor mobile SIMs which are robust, remotely manageable which are an essential enabler for applications and services in the connected world.

All in all a very interesting event and useful to attendees. Papers are being collected and should be available shortly on-line.

It is hoped to do it all again next year on 24th January 2017- #MSC17.

See you there.

@NationalMSC #MSC16 #PAuto #IoT


The future of regulatory compliance in the pharmaceutical industry.

29/01/2016

In this short article, Martyn Williams, managing director of Copa-Data in Great Britain, explains the steps pharmaceutical manufacturers can take on the road to compliance.

The pharmaceutical industry today operates in one of the world’s most heavily regulated environments. Over the past few years, the industry has experienced significant regulatory change and looking to the future, the strict nature of the industry doesn’t appear to be slacking.

COP174The repercussions of failing to comply with industry standards can be detrimental for pharmaceutical manufacturers. It’s no secret that the integrity and reputation of pharmaceutical brands is integral to their success. As a result, even the smallest failure can be irreversibly damaging.

With industry standards surrounding crucial elements like product integrity, energy efficiency, health and safety and product testing, there is more pressure than ever to ensure manufacturers begin to take steps towards compliance. In this elaborate regulations landscape, how do manufacturers ensure production operates in an efficient and effective way?

Validation-friendly technology
Digitization of processes and the emergence of Industrial Internet of Things (IIoT) has transformed the entire manufacturing industry. However, for pharmaceutical manufacturers, the benefits of IIoT have far surpassed an increase in automated productivity.

The introduction of smart devices enables real-time data reporting to central control systems. Naturally reducing manual intervention and minimising adverse events during production. Paired with validation friendly software, an IIoT enabled factory provides live monitoring of regulatory reporting, potentially reducing the validation efforts many manufacturers face with a risk-based approach. This can greatly help to maximise production agility, allowing manufactures to respond to change and ultimately increase profitably.

For example, with batch control being a key step of the validation process, the combination of a smart factory and intelligent SCADA software couldn’t be more valuable. Automatically generating a trail of reliable audits, electronic signatures and real-time reporting, complicated pharmaceutical standards like FDA 21 CFR Part 11 are not so difficult to obtain.

The cloud and compliance
As manufacturers embrace IIoT, migrating to the cloud is the obvious solution to house and manage the growing expanse of production data. However, the cloud does more than just collect and store data, it allows manufacturers to gain actionable insights, directly from it.

Predictive analysis, for example, produces an intelligent forecast of when and where industrial equipment is most likely to fail. Using this data, contingency plans can be made to ensure, regardless of equipment failure, pharmaceutical production will continue to meet regulatory standards.

In addition, cloud computing enables simplified regulatory submissions. Using data stored in the cloud, manufacturers can directly feed digitised production information to regulatory bodies. This feature can be particularly helpful speeding up the lengthy process of clinical trials as well as post drug launch.

With the ever increasing risks concerning drug counterfeiting, efficiency challenges, adaptations to modern day agile processes and the industry-wide efforts to implement serialisation, it will be interesting to witness how IIoT can continue to solve these challenges moving forward.

Getting the green light
Over the past decade, the global focus on environmental sustainability has been hard to ignore. In industry, initiatives such as the European Union’s Energy Savings Opportunity Scheme (ESOS) and the voluntary certification ISO 50001, have put pressure on manufacturers to jump on the efficiency bandwagon. Using the same IIoT and smart software combination, organisations can gather comprehensive data from the entire factory and subsequently meet these efficiency requirements.

@copadata #PAuto #PHarma

It’s the little things that trip you up!

22/01/2016
By Brian Booth, VP of the Water Treatment Innovation Platform, NCH Europe

There’s a lot of chemistry, physics and maths involved in perfecting your water treatment solution. To make sure you successfully treat and protect your system you need to get the equilibrium right, and this relies on balancing all the appropriate equations – even the little things you may not give much thought to. Missing something like half life out of your planning can have serious negative implications for your water treatment, especially when it comes to complying with regulations such as those for Legionella control.

When dosing your water cooling system with biocides it’s imperative that the concentration is correct and that it remains at a continuous concentration for a suitable period of time. While this sounds simple, it’s easy to forget that any bleed water required to compensate for water that may evaporate out of a system, will take a portion of your biocide with it.

Say you put 10 tonnes of make-up water into your system, and every hour 1 tonne runs off as bleed water, this will determine the half life for your system. So for example, let’s imagine the chemical you are using to meet the Government’s Health and Safety Executive (HSE) Legionella control L8 Code of Practice needs to remain at a concentration of 100 parts per million (ppm) for three hours to be successful.

If you just dose 100ppm and walk away, the concentration will gradually fall from the time of dosing and will not remain high enough for long enough as the bleed water will take a portion away with it. This will result in a failure to meet the regulation, making you negligent and leaving you liable.

This is why it’s vital to be aware of half life so that you can increase the dose of your biocide accordingly. Do you know how many hours it would take to reduce a 100ppm dose to 50ppm in your water cooling system?

Although it’s hard to be 100 per cent accurate, you can work out your half life with this simple equation:

 

Half_Life_hours.jpg

If you know your biocide is going to take three hours to be effective, but the half life of your system is one hour you’re going to have to make some adjustments to maintain appropriate concentration. For instance, using our above example of legionella control biocide, to stay at a minimum of 100ppm for long enough you’ll need to dose to 800ppm.

A bit of predictive mathematics goes a long way towards protecting your water system and keeping you compliant. Don’t let a little thing like half life leave you vulnerable to negligence claims – do the maths first!

Half_life_in_water_treatment


Follow

Get every new post delivered to your Inbox.

Join 509 other followers