Showing posts with label building management. Show all posts
Showing posts with label building management. Show all posts

Thursday, 17 November 2016

Industrial Automation Engineering as career for Fresh Engineers



Today, qualified professionals have wider range of options to choose a particular career path. What is needed is only creative and detail oriented, approach , interest in  working with machinery, A well-paying job with plenty of opportunities is waiting for you, you may be a good candidate for a career in industrial automation Engineering.
What is an industrial automation engineer?
For an industrial automation Engineer, sky is the limit as far as prospects are concerned, whether in process, manufacturing, industrial and many other spheres.. There are automation opportunities in both product- and service-oriented industries. At international level, many professional associations, are promoting and supporting industrial automation sector. Industrial automation engineer is responsible right from designing lay out of instrumentation, Bill of material, Programming of PLC SCADA Systems as per project requirement, simulation and testing inhouse before commissioning. They are also responsible for keeping documentation, design layouts, component specifications, warranties, post commissioning support, AMC s in case there is any.

Educational requirements for automation engineers

In our county most automation engineers start out with a bachelor’s degree/Diploma in either Electrical / Electronics / Instrumentation , and other identical disciplines, which may include courses in relevant subjects such as robotics, fluid dynamics, and databases. Those who acquire PLC SCADA Automation training from Sofcon India Pvt Ltd has a cutting edge as compared to others , as they need little on the job training and Industries prefer to employ such candidates.

Licensing and certification for industrial automation engineers

A certificate on Industrial automation from Sofcon training can enhance your prospects for landing a career in industrial automation engineering. This is most popular certification, approved by NSDC which demonstrates an understanding of instrumentation and automated controls. Sofcon India is training partner of NSDC and the said certificates are approved by NSDC, after  successful completion of training from Sofcon training institutes.

Important skills for industrial automation engineers

Industry expects the following skills for automation engineers:
·                     A firm understanding of software application  and computer programming
·                     Equipment troubleshooting skills
·                     The ability to perform complex system tests
·                     Creative thinking and detail oriented approach
·                     Excellent manual dexterity
·                     Strong communication skills to support interactions with other members of the team.

Employment outlook for industrial automation engineering

Manufacturing is moving increasingly toward machine based systems. Semi automatic Machines need to be fully automated, some processes need to be retrofitted, upgraded, new plants are being installed with fully automated lines/systems. PLC SCADA qualified Industrial automation Engineers are in high demand. Industrial automation Engineers can work in all sections; design, project execution, automation commissioning, testing, after commissioning support, defect rectification, maintenance etc. 

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Wednesday, 22 April 2015

How Building Energy Management Can Help Your Factory

Building automation advancements have provided facility managers greater visibility of actionable energy data. With robust plant networks and smarter devices, can manufacturers learn lessons and apply better asset management practices?



Finding and leveraging energy savings in commercial buildings has accelerated over the past 10-15 years largely because of modern building automation systems (BAS) and the BACnet standard development in the U.S. and globally. Direct digital control (DDC) has kicked pneumatic control systems to the curb, and energy data is now readily presented to facility managers, bringing noticeable energy savings for larger companies.
Modern BAS and energy management systems (EMS), along with the proliferation of room and zone monitoring via sensors in modern or retrofitted buildings, present facility managers with opportunities most did not have 20 years ago—namely, through actionable data.

However, best-in-class manufacturers are already roadmapping plant strategies that include much more data from the shop floor. So when does energy management become part of the discussion?Is there an opportunity for manufacturers to leverage the BAS and EMS strategies used in the building space? Compared with building automation, it’s fair to say manufacturers are presented with different types of energy saving challenges because of unique and varied industry applications and manufacturing footprints. For years, electricity costs have been viewed as a fixed cost in the operations world, with building management usually not in the discussion.
Where to start?
“We recommend the top-down approach over a period of time, where we tell manufacturers and building managers to start with your main building profile,” says Arun Sinha, director of business development at Opto 22. “Monitor, learn and find anomalies in energy footprint.”
Building control is quite uniform. BAS resides as software on an operator workstation or is available as a web page, while various controller types manage equipment and portions of the network. Meanwhile, zone sensors provide input data to the controllers. All of this is done through a BACnet communication protocol, ANSI certified, or on a LonWorks network. Monitoring at the subpanel level allows for motion sensing and automated lighting schedules to conserve energy when rooms are empty.
However, the inherent variety of manufacturing applications and control architectures does not allow for a simple plug-and-play handbook for industrial energy monitoring. For example, warehouses or refrigerated storage facilities may lean on a traditional automation system to control compressors and chillers for heating, ventilating and air conditioning (HVAC) and production equipment. These applications include control and monitoring.
“If we’re in the boiler room and there’s 10 energy loads right in the same room with chillers, boilers, pump and circulation pumps, then I’d say it’s better to use a programmable automation controller (PAC) system,” Sinha says.
Energy, a fixed cost?
A particularly challenging aspect of industrial energy management is ownership by operations. Energy management or the cost of electricity has mostly been viewed as a fixed cost, with plant operations focused on meeting output and continuous improvement.
“Historically, production people really haven’t had the resources to look at energy monitoring because 15 different machines on the plant floor have different load requirements and demands, and it was just overwhelming to try to have a production manager really think about energy management," says Doug Ferguson, vice president of Americas Operations Services for Phoenix Contact.
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However, that’s changing as more equipment data moves from the plant floor to third-party energy management software solutions.
“The current trend we’re seeing is a lot of the building automation companies, hardware vendors and the energy management application providers for standard commercial buildings move into the manufacturing space,” says Erik Dellinger, product manager for Internet of Things solutions at Kepware Technologies. The systems they provide often export energy data via XML from conveyor motors via OPC communication drivers into the cloud or energy dashboards for real-time visibility.
Seeing energy data is not a problem. “There’s a lot of options now,” Sinha says. “A lot of companies have emerged offering cloud-based visualization systems that are very easy to use.”
There are numerous third-party energy integrators with dashboard solutions, such as Pulse Energy and eSight Energy, but automation suppliers are in this space too. Siemens andSchneider Electric, for example, both offer cloudbased software with vertical integration of building and automation systems to manufacturers, aiding in business intelligence strategies for larger organizations.
Studying energy loads
One company taking a holistic approach to energy use in manufacturing, while updating its building controls systems with DDC, is automotive engine manufacturer Cummins. The company has been working with its local utility, Duke Energy, to better see the energy loads at its Rocky Mount, N.C., manufacturing facility.
The 1.2 million square foot facility makes about 150,000 engines a year, and compressed air—used to blow off chips from machining the engine blocks and heads—is a major energy factor. Some characterize compressed air as the fourth utility for industrial manufacturers, after electricity, gas and water. For Cummins, there’s no question about its importance.
At the Rocky Mount plant, Duke Energy helped design an energy management system that ties into the company’s existing building management system, where it looks at the cubic feet per minute (CFM) of compressed air used per engine line. The company has a dedicated staff watching air compressors in real time and compiling data logs of energy loads. About 12 main compressed air drops within the plant are metered.
“Rocky Mount is compressing about 20,000 CFM. It is the largest energy-consuming system within our plant,” says Mark VanDam, facilities engineer at Cummins’ Rocky Mount plant. “It accounts for about 25 percent of the electrical energy we use on a daily basis to compress air.”
At the Rocky Mount plant, they’re trying to pinpoint leaks or other equipment problems that could drive compressed air use up, VanDam says. “That data is logged every 15 minutes and then it logs the average every 15 minutes for us to see.”
Cummins is developing its own energy dashboard that drills down to plant floor lines to provide data for more Six Sigma improvements. “We’ll be able to give each individual business unit within the plant a CFM per part that they produce—basically, a measure so they can understand whether their usage is going up or down per part, and drive our energy cost down,” VanDam says. “We’re up to six different Six Sigma projects now, and there is a total savings of about $135,000 annually based on straight energy savings, including electrical energy as well as compressed air savings.”
Rocky Mount isn’t the only Cummins plant moving toward better energy visualization. The engine plant in Jamestown, N.Y., is at the end of a five-year plan to retrofit its entire building management system that will support a BACnet open architecture. Similar to Rocky Mount, compressed air use makes up about 20 percent of the plant’s electricity use.
“At Jamestown, there are three shift operations, but second shift is a maintenance shift. So one of the things we look at is to make sure that our load drops proportionally when production goes home for the second shift,” says David Burlee, plant engineering leader at the Jamestown facility. “With our metering program, we’re able to see a lot of things that we didn’t know existed around energy waste, particularly if the lines or areas are not working.”
Asset management
Data coming from the shop floor can lead to energy savings, certainly, but it can also provide equipment insights or better asset management practices. One opportunity comes from looking at power quality on the factory floor. Poor power quality management can increase power usage and damage devices, such as electrical motors, computers and industrial control equipment.
Three-phase power modules are a common solution and they monitor energy behavior for motors, production lines and motor control centers while transmitting data using industrial protocol standards such as Profibus, EtherNet/IP, CANopen and others.
The modules measure active, reactive and apparent power, total power consumption, power factors and phase shift angles, to name a few.
More importantly, energy data is just a dashboard away. “Our three-phase power measurement modules have an energy management dashboard that provides the engineer or technician with a quick view of the energy use of the system,” says Charlie Norz product manager at Wago.
Energy use at the device level is providing more real-time energy data, but networking solutions also allow plant managers to view bigger plant energy consumption patterns. For example, recent energy profile developments with Profinet and EtherNet/IP provide manufacturers with easier access to a bigger systems view.
The ProfiEnergy communication profile can transmit power demand information back to the controller to support more sophisticated energy savings strategies, including peak load management. Specific examples of peak load management include energy savings during brief and longer production pauses, and unscheduled downtime.
A white paper from ODVA called “CIP Energy Profiles” discusses the importance of a bigger view—a top-down approach—afforded by industrial networks. “Some devices may report very accurate energy data, but high accuracy is not really needed at the device level. There will usually be revenue-accurate meters upstream in the energy distribution network,” the paper notes. “This more complete energy picture provides valuable information on the energy behavior of a machine, zone, line or area, allowing users to make decisions that result in reduced energy usage and cost.”

Source:-http://www.automationworld.com/energy-management/how-building-energy-management-can-help-your-factory

Wednesday, 21 January 2015

Scalable Energy Efficient HMIs for Intelligent Building Automation Systems

Building Automation Management Solution Provider and BMS Training Provider



Known for their energy efficient, open platform and flexible building control and monitoring solutions, American Industrial Systems, Inc. (AIS), introduces their standard and custom offering of HMI panels for the building automation industry.

Known for their energy efficient, open platform and flexible building control and monitoring solutions, American Industrial Systems, Inc. (AIS), introduces their standard and custom offering of HMI panels for the building automation industry.  AIS open and flexible building control and monitoring solutions are designed for commercial and industrial facilities. By controlling building automation systems and simplifying operator interaction and engagement, AIS HMIs help building owners and operators manage their Building Management Systems (BMS), Energy Management Systems (EMS) and Building Automation Systems (BAS) more cost-effectively.  Building control systems applications suited for AIS HMI building management panels include: chiller control, boiler control, lighting control, HVAC control and access control systems.

In commercial buildings, the BMS is a computer-based control system installed in buildings that controls and monitors the building’s mechanical and electrical equipment. An EMS has software and data acquisition hardware components that are used to collect and analyze energy usage at the building or system level, mainly for monitoring decisions only. The BAS consists of stand-alone or networked hardware and embedded software that automatically controls a single building function (mechanical, electrical, or electronic).

AIS’s HMI Building Management Panels Solve Energy Challenges for Smart Building Operators

The building automation industry was an early innovator and adopter of the green movement in addressing environmental issues, reducing carbon emissions and energy costs.  Building and facilities operator embrace the need for continued energy management and sustainability.  BAS and BMS data from commercial buildings are new high-value assets and a major focus in managing energy consumption, triggered by rising energy costs, the benefits of proactive system maintenance and the need for remote property monitoring. AIS’s scalable and flexible operator interface panels deliver HMI integration and visualization of automation systems for smart buildings. Open platform HMI panels with pre-installed Windows embedded operating system from AIS offer hardware and software functional expansion capabilities with software development kits (SDK) for customer-specific applications. AIS building control management HMI panels and operator interfaces offer many benefits, including:

·       Powerful control, monitoring and targeting of energy consumption

·       Computerized and efficient maintenance scheduling

·       Effective use of maintenance staff and increased productivity

·       Reduced maintenance and energy costs

·       Remote monitoring and diagnostics of buildings and facilities

AIS’s Extensive Portfolio of Open & Rugged HMI Systems for Building Automation Control
AIS offers a broad range of flexible and versatile HMI panels and operator interface solutions for smart building control and automation systems that deliver the lowest total cost of ownership for building and facilities operators. Easy-to-use interfaces with advanced visualization capabilities and open communications platforms, AIS HMI panels are also rugged and can endure extreme conditions in HVAC environments and applications. The portfolio of HMI, operator interface terminals and touch panel PCs solutions for building control and management from AIS include:

·       Wide Temperature Touch Panel PCs feature Intel® Atom dual core processor N2800 1.86 GHz, in an industrial-grade LCD flat panel with resistive touch screen technology, and supports an extended temperature range of -20 to 60°C (-4 to 140°F). This selection of industrial and building automation displays are offered in screen sizes 10.4", 15" and 17".

·       HMI Operator Interface Terminals are web-based and ARM-based HMI solutions and one of the most versatile operator interface choices for visualization applications. They are ideal for building control applications that need information displayed in dynamic ways to help operators quickly understand machine status and make faster decisions. The displays for intelligent building automation are offered in sizes ranging from 4.3" to 15".

·       HMI Compact Thin Clients are compact web-based thin clients for faster, better and lower-cost building and HVAC applications. As standard, AIS HMI Compact Thin Clients for building control are ruggedized, and carry NEMA 12, 4X, 4, IP52, IP54, IP66 ratings and certifications. These smart building HMI displays are offered in 5.7", 10.1" and 15" size screens.

·  HMI PoE Touch Panel PCs are fully integrated, utilizing the very latest in Projective Capacitive Touch display (PCT) technology and Power-Over-Ethernet (PoE) capability in industrial-grade LCD panels. As the need for end devices continue to expand for communications, collaboration, security and productivity, the need for PoE capabilities to support these end devices with increased power requirements is essential. These smart, Multi-Touch “Room Scheduling” Panel PCs are offered in 7", 10.1” and 18.5" size screens.