Saturday, June 28, 2014

Getting To Know The Importance of Calibration

One of the wonders that people have discovered in the world of science and measurements is calibration. Often referred to as the process of verifying and determining the relationship between the output and the response of measuring instrument to the value of the input quantity, calibration is known as a measurement standard.

For non-specialized use, calibration involves the entire process of adjusting the output/result or the indication on a measurement instrument to correlate with the value of the applied standard within the boundary of specific accuracy.

WHY USE CALIBRATION?

In more modern and scientific language, calibration is referred to the natural process of transition that is used to measure accuracy and comparison of a measuring instrument that has a standard to determine the possible errors in a specific scale.

Today, calibration is basically used for the process of manufacturing so less and less possible mistakes and errors can be made. This process or measuring apparatus is also used to lower the cost of manufacture or possible production by determining or ensuring the quality.

Calibration is also ideal in minimizing possible errors because it uses scientific method to determine impending miscalculations while doing something to correct the errors if there were any. Calibration becomes more and more popular to companies because the method aims to economize time, labor, and other resources in any production by means of accurate verification.

If there were one industry that benefits a lot in the discovery and utilization of calibration, that would be the numerous laboratories all over the world that conduct seemingly endless and continuous research. The researcher or the tasked observer usually uses this measuring apparatus to refine his or her work.

Calibration is also greatly beneficial to a researcher is he or she doesn't the time to develop his/her own apparatus due to lack of time and he/she needs a set of methods for accurate testing.
Aside from the field of research laboratories, calibration is also extremely beneficial because it makes the construction of instruments that are capable of measuring with sufficient precision and lesser probability to ensure correction.

Considered as the actual accuracy of a scale or balance, calibration is widely used in testing the products to get their accurate weight. In the United States alone, an agency called National Institute of Standards and Technology that is tasked to maintain standards for values of SI units and industrial standards, calibration has become a helpful tool in providing the traceability of their subjects of study by adhering to the basic standards of calibration.

Low Jeremy maintains http://calibration.articlesforreprint.com . This content is provided by Low Jeremy. It may be used only in its entirety with all links included.
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Wednesday, June 25, 2014

GuardDog's Key Performance Metrics

  • 7 year record and 100% success rate of eliminating fuel spills while delivering 10’s of billions of gallons of fuel in 10's of millions of loads at tanker truck facilities
  • Delivers immediate benefits with less than 18 month break-even return on investment.
  • Stops reportable spill accidents associated with loading fuel
  • Eliminates VOC releases by preventing spills and over pressurization of cargo tanks
  • Eliminates regulatory fines due to spills caused during fuel loading
  • Eliminates remediation costs due to spills associated with fuel transfer operations
  • Reduces or eliminates regulatory enforcement agent visits to your facility
  • Delivers positive public relations opportunities while eliminating PR nightmares due to spills during fuel loading
  • Delivers a marked improvement in the safety and security of facility and personnel 24x7x365
  • Provides management a tool for assessing personnel and equipment performance

Sunday, June 22, 2014

A Look at Some of Our Vendors

• AIR LINK COMMUNICATIONS
• AIRTEST
• AMETEK - PMT Division
• BEST POWER SYSTEMS
• CUSTOM SENSORS
• GE ANALYTICAL INSTRUMENTS (formerly Ionics Instruments)
• GAUGING SOLUTIONS
• HAND HELD PRODUCTS
• INTELLUTION
• ICE QUBE, INC.
• MOTRON ELECTRONICS
• MULTI FORCE
• OMNTEC
• PARAMETER MEASUREMENT INC.
• QUADLOGIC
• SCULLY SIGNAL COMPANY
• SPILLGUARD TECHNOLOGIES, INC.
• VALDOR FIBER OPTICS

Thursday, June 19, 2014

Factory Automation System

Factory automation is based on the application of computers. It involves various technologies. These technologies are applied by persons highly qualified in automation engineering. The technologies involves in factory automation are motor control and drive system, robotics system, machine vision system, programmable logic control system and manufacturing executive systems. These are also known as automation tools without which automation is not possible.

Factory automation facilitates creativity and perspective to implement robot technology. It makes many manufacturing processes possible without human interference. Automation integrates logic, power, information technologies and process into one drive system. Automaton applied in the factory uses machine vision system. It uses robotic machine handling process to perform identification, orientation and decoding tasks. The programmable logic control system one the important automation tools facilitates the successful implementation of the automation control system. This system is capable of controlling all types of machine controls, web handling lines, paper machine and pulping processes. It also works as conveyor system and does the functions such as packaging and mixing, blending and batching.

There is need to unify the business with plant floor system in the present global scenario. The factory automation makes it possible. It also provides flow of information to instruct people and machines to deliver the product as per requirement. Some important functions performed under the automation include operation scheduling, resource allocation and status, labor management, quality management, process management and performance analysis.

Today the performance of an organization is based on two things namely effectiveness and efficiency. Effectiveness means ability to recognize and do everything that can contribute to the organization's development. Efficiency refers to the ratio of output to the input of any process or system. The efficiency and effectiveness of a factory or manufacturing unit are greatly advanced by the automation system. It contributes in increasing the production of the factory as well as makes the manufacturing process more flexible.

The quality control through factory automation is the key issue behind the application of automation. The global economy has made the economy more competitive. In this economic environment there is emphasis on the better quality of products. The automation system in the industries can play a major role in the quality enhancement. But running after the technological advancement with the revolution in information technology has raised many issues. A major section of workforce has been rendered jobless due to the automation system operation. Besides, the whole operation of the factory has become more and more dependent on the machines and instruments. It has opened the way for any major debacle at any time.

Advanced Automation Associates, one of the leading automation engineering [http://www.advancedautomation.com/process_automation.html] service provider in USA. It provides factory automation [http://www.advancedautomation.com/factory_support.html] and distributed control systems [http://www.advancedautomation.com/distributed_control_systems.html].
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Monday, June 16, 2014

Industrial Robots - A Marvel Of Engineering

Invention of Robots has brought about revolutionary changes in the field of industrial manufacturing. In the earlier part of the century humans were engaged in jobs, which were very dangerous and involved serious health hazards, but in 1956, Unimation a company founded by George Devol and Joseph F. Engelberger invented the first robot. These were initially used in industries where it was required that dangers involved in working should be reduced like in spot welding, die casting and forging and then gradually they were employed in areas requiring greater strength and accuracy than human beings.

Industrial Robots are automatic devices, which to an extent simulate the human behavior or more specifically human activity. Robots are important part of the science of Automation. Automation involves machines and computers that are capable of learning and performing various types of operations. The word robot has been derived from the Czech word "robota" meaning compulsory labor. The robots are used in industries to perform various functions like material handling, spot welding, spray painting, die casting, ironing, forging, assembly operations, palletizing, dispensing, testing, water jet cutting, picking and placing heavy goods etc.

Robots are made in various shapes and sizes and generally their load carrying capacity depends up on their size and strength. An average human sized robot is capable of carrying a load of more than 100 pounds and can also move it very quickly at the rate of +/-0.006 inches. One of their major advantages is that they can work continuously for days and years at a stretch without developing any fault. Due to this persistent accuracy robots are fast becoming indispensable part of various industrial set-ups. Most often these robots are used for repetitive painting, welding and operations like picking up and placing products into the machines.

The industrial robots can be programmed for performing a single function at a time and can only perform that particular function till they are reprogrammed. The cost of a robot is not very huge, but generally the cost of programming the robot is so high that instead of reprogramming it the manufacturers find it more economical to buy a new one for a different task. In simpler terms we can say that usually the cost of the robot is just a fraction of the cost of programming it.

Robots are made up of easily available materials. Steel, cast iron and aluminum are commonly used for making the arms and bases of robots. In mobile robots, rubber tires are fixed for smooth and quiet operation. Robots may be electronically operated and also laser or radio controlled. The exposed parts of the robot are enveloped with flexible neoprene sheaths and bellows.

The importance of robots in industries is increasing day by day and they constitute a very important part of the modern industries. Robots have made so many things possible, which could not be even thought of around 6 decades ago. They have taken the place of manual labor, especially in places where people worked in very dangerous and hazardous conditions like welding, die casting and forging. They have brought about revolutionary changes in the field of industrial manufacturing. According to a research conducted by the United Nations Economic Commission for Europe the worldwide purchase for robots is increasing at the rate of approximately 19% every year.

In recent years Robots are also being used in industries like consumer electronics and food packaging where robots outweigh the precision and quality of assembling the products as compared to work done by human hands. Earlier on some people protested the inclusion of robots in industries on the account that this will render many people unemployed. But these fears have also been allayed and the best argument in this regard has been given by economist James Miller. He says "True, the existence of automation might depress workers' wages but it shouldn't ever leave them unemployable."

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Friday, June 13, 2014

Frontline Environmental - Our Vision

Since the founding of our company, our vision has been to form long lasting ongoing business relationships with customers by providing the highest degree of value and professionalism in the services we offer. Our vision is to provide our client a single source for specialized engineering and technical services that deliver innovative solutions, real value, expertise and continuity to their project or operation.

Tuesday, June 10, 2014

Warehouse Automation: Lowering Costs And Increasing Efficiency

Warehouse automation, or the implementation of computer software and machinery in a distribution center, is a great way to improve efficiency throughout the entire facility. By automating the procedures involved in product distribution, the center will drastically reduce the manual handling of products, thereby virtually eliminating human error. Not only can this lower overhead costs, but it will also speed up the whole system.

Depending on the needs of the distribution center, the entire scheme can be automated or just one or two components may be. There are three basic types of automation that can be used on their own or combined throughout the facility.

Automated Conveyor And Sorting Systems

A simple conveyor belt arrangement transports products throughout the warehouse. Automation of the conveyor system means that employees no longer have to physically transport goods through the center. Products may simply be placed on the conveyor belt, which carries them to where they need to go.

A sorting system is similar to a simple conveyor, but with higher capacity and the ability to direct containers to specific locations. An automatic sorting method is typically used to direct high volumes of smaller containers to several different locations.

Automated Storage And Retrieval Systems

An automatic storage and retrieval system, or ASRS, may almost be viewed as a large-scale vending machine. Comprised of several different computer-controlled processes, this arrangement uses machines to deposit goods in their designated locations, then, when it is time to ship them out, to retrieve the items, place them on a conveyor belt, and transport them to the shipping docks.
An ASRS will also keep track of inventory, reducing the need for manual counting and saving even more time and money.

Automated Picking Systems

With a voice-directed picking or pick to light system, order picking becomes vastly more efficient. Rather than relying on a paper printout of which items are required, the system will tell the pickers exactly where to go and how many items to retrieve.

A voice-directed process utilizes handheld units connected to headphones. The units use voice technology to literally tell the picker where the required goods are located as well as the amount to pick. The day's orders can be downloaded onto the unit at the beginning of each shift and organized by department.

With a pick to light system, a special module is attached to each storage location. When an item at that location is required, the light will turn on, attracting attention to that area. The module will also display how many units of that item are required. Once the required amount has been picked, the picker will confirm that the task has been done by pressing the appropriate button on the module. This is regarded as one of the fastest and most efficient picking systems available.

A Smarter Warehouse: Automation Is The Wave Of The Future

Though it may seem like an intimidating process, warehouse automation is a great improvement to any distribution center. By using computerized programs, human error is reduced drastically and the entire facility can run faster and more efficiently. By reducing time spent on order fulfillment as well as cutting down on waste of both time and materials, warehouse automation is truly a great benefit.

The Numina Group is an expert in warehouse automation systems. The company provides engineering and design services to improve processes throughout the warehouse. To learn more about the Numina Group, please visit http://www.numinagroup.com.
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Saturday, June 7, 2014

About Frontline Enviromental Technologies Group, Inc.

We are specialists in automation & control technologies, communications and power distribution. We provide the industrial, petrochemical, municipal, commercial building and manufacturing communities with a single source solution for complete engineering and technical support services.

The major distinction that separates our firm from others is the combination of specialized engineering education and years of "hands on" field expertise.

We provide a comprehensive package of engineering and technical services that deliver innovative solutions for unique and difficult problems. We deliver real value, expertise and continuity to our customer's project or operation.

Our "on time" and "on budget" installations coupled with our full range of engineering and technical problem solving skills, have provided a proven track record of achievement.

Wednesday, June 4, 2014

The Key Components Behind Robotics and Automation

When you think of "robot," what do you envision? Does your robot walk upright like "C3PO" or roll like "R2D2?" Does your robot have a rigid mechanical face or an expressionistic soft face? Does it pick up objects or does it function as a robotic vacuum? Perhaps your intelligent system works in the medical field or in robotic welding. Since there are a number of different uses for robotics and automation, it's reasonable to assume there are many, many robot design options. To begin thinking about how these complex machines move, we need to look to physics, science, math and engineering.

One of the primary components used in robotic automation is the actuator, which converts stored energy into movement. Most actuators are electric motors (brushed and brushless DC motors, to be exact), although chemical and compressed air actuators exist as well. Stepper motors rotate in easy-to-control motions, commanded by a controller rather than a sensor. Piezo or Ultrasonic motors use rapidly vibrating piezo-ceramic elements, which ultimately cause motion. Air muscles work with compressed air, behaving similarly to human muscles which contract and expand. Elastic nanotubes are in experimental stages right now but appear promising, holding high levels of stored energy.

Locomotion is a key component of robotics and automation. Some prototypes roll on one to four wheels. For instance, NASA's "Robonaut" and "Urbie," Carnegie Mellon University's "Ballbot," not to mention characters like George Lucas's "R2D2" and The Jetson's "Rosie," all roll around. However, several robots like Honda's "ASIMO," can walk. The Anybot "Dexter Robot" can jump and MIT Leg Laboratory has developed complex robots that can trot, run, pace and bound. Even still, some robots, like those used in the military, are best suited for flight. Snaking motion robots have been used to save construction workers who were buried in a wreck. Essex University devised robotic fish for research purposes too. There is a place for every type of locomotion in industrial robotics.

For some, human interaction is the end-all and be-all of robotics and automation. At Disney World, the "Imagineers" developed singing, blinking, winking, emotional robots that almost seem like real people. Researchers say that the future of robots is the ability to communicate with humans through facial expressions, speech and gestures, rather than simply on predictable programmed responses. Kismet can create a range of facial expressions, which can help people interact more meaningfully with their companion bots.

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Sunday, June 1, 2014

Landlord and Tenant Solution For Measuring Electric Use



Quadlogic has provided electric submetering systems for residential and commercial customers for 25 years. Our patented Power Line Communications technology is what sets us apart. By utilizing a building's existing power lines to transmit metered data, no additional wiring or meter readers are required. Leading electrical contractors, property owners and property managers depend on the accuracy and reliability of our equipment. Our meters are also capable of receiving pulse data from water, gas and BTU meters for a complete utility metering solution.

At Frontline Environmental Technologies, we have a wide variety of solutions for many business needs. See more at http://www.FrontlineWorldwide.com