Saturday, February 28, 2015

Engineering Firms: How to Hire Qualified Engineering Services

Have you ever had to hire an engineering firm? If you have you know it is often a tedious process with many variables. Engineering firms come in many sizes from one consultant to firms that have consultants from all different disciplines within engineering. How do you find the right consultant for your job big or small?

There are several different types of engineers. There are primarily four main fields of engineering including civil engineering, mechanical engineering, electrical engineering and chemical engineering. Most every other type of engineering can be included in a subcategory linked to one of the main fields of engineering. Believe it or not each subcategory can easily be broken down further. This is why hiring an engineering firm is so complicated.

There are five main objectives that need to be looked at when hiring an engineering firm for your next project. Follow these tips when hiring an engineering firm to help when your manpower and expertise is not enough.

Qualifications: Ask yourself when you start looking for engineering firms what are the requirements for the project. This will make it far easier to narrow down which firm's offer services that will help you lead to the project's completion. Look into several firms qualifications and immediately eliminate any firm who you don't think will be able to fulfill the requirements set forth in the project.

Statement of Qualifications: What do you have to do when you are interviewing for a new position? You have to send a resume in attached with a cover letter proving yourself, right? Have the firms you are interested in do the same for you. Write with them giving them a short description of the project you wish to hire them for to inquire about the firm's interest and qualifications. Give them a specific date to send their interest, qualifications and references into you by.

References: Before you actually hire the firm is when you need to check around and see work that has been completed by them. Word of mouth is a valuable tool to use in hiring anyone for any project. The same holds true for engineering firms. If someone has recently had a good or bad experience with a firm they are likely to share that information with you on your quest to find an engineering firm to work with.

Spreadsheet: Once you have an established list of firms you are serious about hiring you will want to make a spreadsheet to compare the firms based on a few different areas. Some things you might consider comparing are the firm's reputation, their location in comparison to the job, experience with a project similar to yours, how they are compensated, availability of qualified personal, their schedule in comparison to your time line and other important aspects to you.

Selection: When the selections process is coming to a closed you will find that these steps have narrowed your choice down to the most appropriate firm to work on your upcoming project. You will come to a mutual agreement on the scope of the services they will provide to the project and write up a contract based on those items that have been agreed upon.

The selection of an engineering firm is never an easy task. Reward often comes with hard work and I believe this is true when hiring any individual or corporation to work with. Engineering firms should have to work hard to gain your business just as you would when looking to be hired.

If you have enjoyed this article from Kevin Germain at CPS please visit our website today at You will find useful information on engineering firms.
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Wednesday, February 25, 2015

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 [] service provider in USA. It provides factory automation [] and distributed control systems [].
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Sunday, February 22, 2015

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.

Thursday, February 19, 2015

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
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Monday, February 16, 2015

Automation Systems Are the Center of Manufacturing

When you hear or see the words "automation systems" you can think of a lot of different types of systems. You could visualize home automation systems, application automation systems, or any other of a bunch of systems. The type of automation systems about which we are thinking is the one that keeps your manufacturing running the way that it should. Just like any of those other systems that you might have thought of when you saw the title of this article, this automation system has a computer that sits in the middle of several other devices. This central computer is usually called a controller, probably because it controls all the other parts of the system that are connected to it. This controller has everything going for it in the way of power and speed. It is always built on a very rugged foundation so that it can handle the rugged environment in which it may be required to operate. It can operate in extreme temperatures without interruption.

The controller can be configured using the end-user requirements as a guide. The processor, which is the heart of the controller, has a clock rate that is extremely fast. All this means is the speed at which instructions are read and executed by the processor are blindingly fast. The faster the clock rate of the processor that is in the controller the more instructions the controller can send and receive from automation devices at a very high rate of speed. The processor has an operating system running in it at all times. The processor and the operating system support one or more programming languages, with which programs are written to control and give instruction to the automation. The processor is where the programs are executed that are used to instruct the other automation devices of the system. Programs that the processor can execute will be able to perform math calculations and conditional and Boolean logic. The controller will create an event log that acts as a chronological historical record of all occurrences that happen while the controller is running. This is invaluable when troubleshooting system problems.

Maintaining control of the automation environment is the main function of the controller. It will send and receive information from the system to determine how it should make decisions about controlling the system. The controller has the optional ability to have multiple local control and remote control points for communicating with automation devices. There are usually several counters, math variables, logic variables, and timers to assist in the direction of automation devices while they do the work.

All the automation devices that work in the manufacturing environment to make products are connected to the controller by wireless or high-speed cabling. You can see why the processor has to be fast, if it is to give instructions to devices in advance of when they are required to accomplish automation tasks. One of the devices to which thee controller is connected is a monitor or display. This device will be able to display measured values, error codes from the system, calculated values, the statuses from other devices that are connected to the system, and system configuration settings.

Usually all the devices that are connected to the controller via a serial or TCP connection. Sometimes this main computer not only acts as a controller for automation, but it also has the role of the server for an intranet system in the business. This means the computer will be running automation-controlling software while also running ERP software, accounting applications and other business applications. This can make it easy for the business management software to be made aware of the production rates, inventory levels due to manufacturing, and accounting information that is necessary to run the business. The controller is also asked to monitor data from analog sources like temperatures and tank pressures. The system has the ability to interface with outside systems for data exchange. The ease of transmission of data in and out of the company system and to and from outside sources come from the standardization of protocols that have been established. Data is readily exchanged with resource planning software, equipment effectiveness software, and supply chain management software.

The system that requires a controller for keeping its processing optimized in manufacturing is much more than a personal computer. It is the middle of a very powerful system that has the ability to control the most important part of a manufacturing operation. The automation it controls is what is required to keep the business viable.

John Mitchell is President of Provision, Inc, an online publisher of information about the application of automation in business. Mitchell has years of experience in the management of manufacturing, warehousing, and transportation. The company website,, assists companies in the evaluation of the benefits and capabilities of production automation. Thoughts on how to select the most effective automation for your business are presented. Insights into the use of vision systems, RFID and other topics in automation are covered. Requests for quotations and questions about automation can be submitted to the consulting engineers of leading automation companies.
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Friday, February 13, 2015

Industrial Services Providers and Outsources, What You Need to Know

Industrial services encompass a great number of possibilities. Whether it be constant factory work or piece meal mining jobs, you cannot deny the importance of those auxiliary industrial services. It makes the daily tasks in those jobs easier and in some cases it would not even be possible without other firm offering those services.

As the world grows, so do our needs. The demand for factories to produce goods has double or even triples as the years have gone by. Mining, drilling and other procurement industries have worked double time to produce resource and keep up with those needs.

Working harder can help bridge the gap between supply and demand but everybody needs help sometimes. As production and labor costs rise, companies are looking for creative ways to get the tasks done without needing to hire another platoon of personnel. Some have turned to automation but this requires a massive investment because of expensive technology. Some have looked into streamlining process but some processes, however small it may seem, is still vital to the production. The answer may lie in outsourcing.

The perfect candidates for process that are contracted to outside companies are the process that are extremely expensive and tedious but are not done constantly during the production or procurement process. Other processes that would be perfect for outsourcing are the ones that require expensive personnel or machinery to do. These are often jobs that licensed engineers need to sign off on. Some of the contractual industrial services that are commonly offered include vacuum loading services, abrasive blasting, and industrial floor coating just to name a few.

Only a few people offer these services but it is a continually growing group of providers. More and more people are looking to enter in this business. It is important to find the best provider so that you can get a good relationship and get the best service before the competition comes.

The competition between firms is good because it will give you advantages in the long run. However, it does not mean you don't have a hard decision to make right now. You have to think about the choice you are going to make. You still need to find an outsourcer that will give you the best possible service for the best possible price.

Even if you do not know what you need done, these professionals can help you determine how to optimize your business and make the most of your resources. It may seem like you are spending money but in fact you are saving money by saving on manpower costs and time.

Go ahead and consult with an industrial engineering service provider today and find out how they can help you. It is as easy as a simple phone call and you do not have to pay unless you agree on the services. What have you got to lose? Nothing, if you ask me. So, Act now and save on operation cost while making the workplace safer and more effective and efficient.

John Black writes about a wide range of topics. Click on the links to learn more about concrete demolition and industrial floor coating.
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Tuesday, February 10, 2015

Finding Big Data Opportunities in Industrial Automation

Here we are in the world of Big Data and all of its possibilities. Just look at all the data we have available to us: production, maintenance, distribution, personnel, finances - real-time, historical and predictive. There is more data being collected more quickly and from more sources than ever before. We are swimming in it.

So, now what? Now that we've gathered all of this data, what does it mean to us? Personally, having reams of integers, floats, strings and timestamps in my hands doesn't make me feel any smarter. As the old adage goes: Data is not information. Data without context offers no insight. Data without structure reveals no opportunities. How do we get from data to information? How do we get from information to knowledge? And how do we get from knowledge to action?

Finding the Anomalies

The US Department of Defense employs a process known as Activity-Based Intelligence (ABI) to find useful details in large sets of data. For example, in 2013, when two bombs exploded near the finish line of the Boston Marathon, investigators immediately had at their disposal hundreds of hours of surveillance footage, cell phone photos, and time-stamped video from dozens of angles. To manually review all of this media would require thousands of man-hours - time that is obviously not available in a situation like this.

To make use of this constellation of data, investigators were forced to find a way of automating the investigation. They decided to establish a specific set of details they wanted to locate in all of these photos and videos. Namely, they were looking for any individuals at the scene of the bombing who were not running away or looked unafraid. The behavior recognition technology existed, so it was a simple matter to enter a set of variables into a program and to let the software review the footage in an effort to find the activity that matched these variables. Soon, two suspects were revealed.

While it would have been nearly impossible for human analysts to review all of this footage in a timely fashion, investigators discovered that Big Data could in fact be very useful if combined with a mechanism to compare and contrast the thousands of data points being reviewed.

A similar technique is now being employed in cancer research. A so-called "Big Mechanism" has been created to review the vast and complex medical records of cancer patients that have been established over the years to find overlapping patterns or consistencies that can lead to a new understanding of root causes or precipitating circumstances. By automating the research, we are now able to analyze data sets of much greater size and complexity than would be possible using only human analysts.

Can Similar Techniques be Employed in Industrial Automation?

Today's industrial enterprises find themselves in a situation similar to those described above. Huge amounts of data are being recorded and opportunities for improvement are known to exist, but how do we know what to look for and how do we find it? The same sort of ABI employed by the DoD may well have a place in the commercial world.

If we can review our historical process data to define the circumstances surrounding certain conditions (unplanned downtime, spikes in energy consumption, etc.), we may be able to recognize repeated patterns or anomalous activity related to these specific circumstances, thereby enabling us to take action to correct the situation before it happens again. By finding the data that stands out from the rest, detailing the characteristics of that data, and looking for those characteristics elsewhere, we may be able to pinpoint causal relationships that were previously obscure or misleading.

On the flipside, the same techniques can be employed to define the circumstances surrounding periods of extended productivity or energy efficiency. The same techniques used to discern the cause of deficiencies can be used to optimize asset performance and improve the quality and efficiency of our processes.

By creating analytic mechanisms aligned with the principles of ABI, we are able to create a safer, more efficient, more productive work environment. Of course, some of this runs counter to the way most of us are programmed to think. We tend to put more stock in consistent, reliable information, while discounting the anomalies. ABI encourages us to find the anomalies and focus on them.

The key to navigating the world of Big Data may not lie in the massive set of data, but in the tiny subset of data that teaches us about the abnormalities or anomalies we find. Look for the data points that stand out from the rest and ask yourself why. Consider the circumstances surrounding the collection of that data; can we map certain plant floor conditions to specific results?

Thus far, the Big Data movement has been a combination of hype and optimism, with very little practical value in daily operations. Some companies are finding ways to take advantage of the opportunities, while others have fallen behind.

Can you find the opportunities?

If you are serious about finding new opportunities and increasing productivity in your process control environment, it begins with having access to the right tools. Learn more at
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Saturday, February 7, 2015

Supervisory Control And Data Acquisition System

The processes that the SCADA system monitors may include the facility, infrastructure or the industrial based processes. The industrial processes may encompass the power generation, refining, production, fabrication and manufacturing. These techniques may operate in discrete, batch, continuous or repetitive modes. Facility processes, on the other hand, include facilities such as ships, airports, space stations, private and public facilities. They manage the consumption, access, energy and HVAC.

Another process comes under the supervisory control and data acquisition system is the infrastructure processes. They can either be the public or private infrastructures, including the wastewater treatment and collection, water treatment and distribution, transmission, civil defense siren systems, electrical power distribution, gas and oil pipelines as well as the huge interaction systems.There are multiple subsystems often present in the SCADA system. There is the apparatus that provides users all the processed information and the process of passing through this human operator's alert monitoring is named the Human-Machine Interface (HMI). Besides, there presents a supervisory system that has access to all the needed details regarding the process thus sending them to the control commands.

There has been some ongoing confusion between the supervisory control and data acquisition system with the distributed control systems. Basically the SCADA does not have direct control over the processes but it refers to the system that coordinates the processes thus indirectly covering the system as well. The aroused confusion may be due to the new telecommunications technology that aids to enable low latency communications, high speed and reliability. Disregard of the distinctive differences between the two systems, they can be eliminated as they are to be determined culturally. In fact, the differences will become less significant when communication infrastructures of higher capacity are made available.

As a matter of fact, there are solutions in the SCADA system containing the constituents of distributed control system. Easy logic processes are effortlessly executed without involving the master computer due to the presence of a smart PLC or something called the Ladder Logic. They are block programming languages usually used to create programs running on RTU or PLC.

Chris has written this article and likes to share articles on topics like scada system and enterprise resource planning.
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Wednesday, February 4, 2015

What Is Groundwater Remediation?

Groundwater remediation is a process in which all types of pollutants are removed from the water in our soil. Groundwater is the water that exists below the surface of our world and represents at least half of the population's drinking water in the United States, if not more. Another use for groundwater around the country is in the process of irrigation for crops and products sold to consumers all over the United States, in addition to other industries that bring their products to the public on a daily basis. Making sure that groundwater is free from pollution is extremely important to many businesses and homes across the country, and that is where ground remediation comes in.

What Causes Pollution in Groundwater?

The use of contaminated groundwater can lead to a myriad of hazardous issues for people and animals all over the world, which is why it is so important as a property owner to make sure your soil and groundwater are free from pollution and hazardous materials. Many practices that make industries successful all over the country can actually lead to the contamination of groundwater.

Some of these practices include:

Over-application of fertilizer/pesticides

Industrial operation spills

Urban runoff infiltration issues

Landfill leakage

All of these practices are necessary to the success and vitality of industries all over the country, which makes groundwater remediation services an extremely important part of daily operations for companies that deal with any of these practices. Making sure that groundwater is not contaminated for the safety of all those who come in contact with it is an essential effort that must be put forth by companies and individuals who commonly use practices that can add to the pollution of groundwater and soil.

While it is the most common cause for contamination, not all pollution effects come from business and industries. There are many types of contaminants that are found naturally in soil and the earth, and there are groundwater remediation techniques to take care of these problems as well.

Are There Different Types of Ground Remediation Techniques?

There are three major techniques when it comes to groundwater remediation, and they include technologies of a biological, chemical, and physical nature. Most soil and groundwater remediation technicians use a combination of these three technology techniques, but each is designed for very specific uses.

Biological Technology Treatment Techniques - Some of the most popular treatments of the biological nature include phytoremediation, bioaugmentation, bioventing, biosparging, and bioslurping.

Chemical Technology Treatment Techniques - The most common chemical treatment techniques include surfactant enhanced recovery, chemical precipitation, carbon absorption, chemical oxidation, and permeable reactive barriers.

Physical Technology Treatment Techniques - Physical treatment techniques that are used most often in groundwater remediation include pump and treat technologies, air sparging, dual phase vacuum extraction, and well oil skimming.

All of these technological treatment techniques are used in various different soil and groundwater remediation services, and it is important to find out which treatment is best for your property by speaking to professionals in the industry.

The FGS Group's in-house licensed contractors, superintendents, operators, and technicians have installed hundreds remediation systems over the last 20 years. Find out more at
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