Tuesday, December 30, 2014

Types of Projects Completed by Frontline Environmental

Types of Projects Completed by Frontline Environmental Include the Following:

• Refinery Retrofits - Gasoline, LPG, Asphalt

• Truck, Rail & Marine Loading Facilities

• AST / UST Automated Tank Gauging Systems

• General Manufacturing & Packaging Facilities

• Food Processing & Manufacturing Operations

• Bulk Material Handling Facilities

• Fuel Analysis Systems

• Back-up Fuel Supply Projects

• Facility Access & Control Projects

• Local & Remote Communications Systems

• Ground Water / Soil Remediation Projects

• Water Analysis & Control Systems

• Waste-water Projects

• Pipeline Leak Detection Projects

Saturday, December 27, 2014

Choose The Right Calibration Services For Maintaining The Performance Of Gadgets

The intense increase in the use of various electronic gadgets has simplified the way of life of people. There are so many tasks which are performed with the help of various gadgets. This has greatly reduced the manual efforts and incorporated an element of modernization. Various gadgets have found application in different households, industries and factories. The use of various modern devices has made it possible for individuals and establishments to get several benefits. However, it is extremely important for people to ensure that the gadgets they use are at par with certain standards. A gadget which is performing below a standard is not considered to be very suitable.

One very important thing which gadget users should keep in mind is about calibration. There are a number of experts who provide these services. Calibration services are basically the methods of evaluating and adjusting the values of a gadget for its precision and accuracy. Such a thing is done by comparing the gadget with another gadget which has an accurate and unvarying standard. These services are capable of checking, determining and correcting all the gadgets that use quantitative measurements. Many individuals and establishments rely greatly on these services. The method of calibration cannot accept any kind of faulty and shortcut processes. These services include validation, repair, preventive maintenance and electronic asset management.

Many laboratories, hospitals, measuring device manufacturers, aviation and testing industries, engineering institutions and processing plants undergo calibration. In order to ease the process, calibration instruments can be used. The use of these instruments brings a number of benefits. It can greatly benefit the manufacturers and consumers. Manufacturers can greatly increase their level of productivity, get a smooth flow of work and reduces wastage. The consumers will get the advantage of using high quality products. The business organization as a whole tends to become very credible by using these instruments. wastage Their brand becomes popular throughout and is promoted positively. The instruments should definitely be calibrated in these establishments so that the standards are maintained and the progress of the establishment is ensured.

Organizations should make all possible efforts to avail these services from a reliable source. If a reliable and expert service provider is approached for carrying out the process of calibration, the establishments can get several benefits. These service providers use sophisticated instruments for the process. They are capable of giving the accurate results. Proper actions can then be taken by the establishment. These services can be adopted at extremely reasonable costs. There is no need to spend huge sums of money in getting the instruments calibrated. The reliable services would ensure cost effectiveness to the establishments. It proves very profitable for the organization, individuals and households to a great extent.

Author define the calibration services usage for better maintenance of gadgets Performance, has years of experience in testing and measuring tools. Through this article he shares some valuable information on calibration instruments among all reader here.
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Wednesday, December 24, 2014

Sunday, December 21, 2014

What You Need to Know About Automation Control Device

Technological advancement has made it possible for us to automate almost everything nowadays. You can get an automation control device from a reputable manufacturer that can help you to automate your home or factory. This helps to improve efficiency and also security. The devices work by use of AC drives. These drives regulate the supply of electricity to a specially designed motor system or electrical device. The automation can control anything you choose such as lighting, doors, sprinkler system among others. With push button switches, you can control these automated functions from wherever you are. You can get an LCD control system so that the user interface is centralized and also simple to understand and operate. There are also other interfaces available in the market such as designated control keypads. These have inbuilt temperature sensors so that they can detect your input.

You can also have programmable controllers. These allow for commands to be input beforehand. For instance, the garden sprinkler can be set to go on at a certain time in the day. The same goes for security lighting. This automation control device can be installed so that it can give you control over your house even when you are not home. The AC drives are controlled by the device to act at specified times so that the action specified is carried. These controllers can also be customized according to your needs. The numbers of modules you get depend on your budget as well as needs. The more modules you get, the more the device costs you and vice versa. It is however more beneficial if you have one centralized automation system rather than different small systems. This is because in case of a break down, the problem can easily be identified and repaired. It also helps in lowering the installation, maintenance and repair costs.

Control systems automation ensures you take control of your operations. In a factory setting, having the ability to stop the processes in case of an emergency is necessary. It brings about a feeling of safety. Having an automation control device installed in a factory can help coordinate the operations. The AC drives can be attached to various processes in the factory so that they can be switched on and off at the control office. In case of an emergency such as an accident on site that could hamper the operations of the firm, the switch can be turned off so that the machines stop. It should be able to override the switching of the machines on the factory floor. This could be useful in case there is an act of sabotage. Some of the processes that can be automated include packaging, blending, mixing, batching as well as the movement of the conveyor belt.

There are many companies that can provide an automation control device out there. There also many that can do maintenance and repair of the AC drives that make the automation work. However, you should only choose companies that have experience in the field such as industrial control direct to do your installation, maintenance and repair. In this way, you can be sure you are getting professional services.

Joshua Donaldson is the author of this article on Industrial Control Direct.
Find more information, about Products Offered here

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Thursday, December 18, 2014

3 Differences Between a Feasibility Study and a Business Plan

There seems to be a mix up between a feasibility report and a business blueprint or plan. While some say they are the same, others argue they are not. So I want to use this medium to draw a line between a feasibility study and a business plan.

Though the process involved in developing feasibility report and a business plan are similar, I will reveal to you some basic differences:

1) Feasibility is carried out with the aim of finding out the workability and profitability of a business venture. Before anything is invested in a new business venture, a feasibility study is carried out to know if the business venture is worth the time, effort and resources.

On the other hand, a biz plan is developed only after it has been established that a business opportunity exist. This simply means that a biz plan is prepared after a feasibility study has been conducted.

2) A feasibility report is filled with calculations, analysis and estimated projections while a business blueprint or plan is made up of mostly tactics and strategies to be implemented in other to grow the business.

3) Feasibility is all about business idea viability while a business plan deals with business growth and sustainability.

I hope this few words I have written has been able to point out the key differences between a feasibility study and a business blueprint or plan. I feel it's also worthwhile to know that a feasibility report or study can readily be converted to a business plan.

And just before I drop my pen, if you really want to learn How to Start a Business from scratch; please feel free to visit our blog. In addition, you can also get quality information on How to Become a Billionaire in less than 10 years
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Monday, December 15, 2014

Industrial Automation Technology

Industrial Automation Technology refers to the control of industrial machinery and its various processes thus reducing the need for human intervention. Industrial automation technology makes use of various control systems such as programmable logic control, industrial control and numerical control systems. These applications are usually used in concert with information technology systems such as computer technologies that control the automated machinery.

Automation is a step up from mechanization because it greatly reduces the human mental and sensory requirements, whereas mechanization assists human operators with the muscular requirements for the work.

Industrial automation plays a large part in the global economy, and engineers work hard to combine mathematical tools with automated devices to produce better and more complex systems for the expanding applications and range of human activities.

The automation of machines and other technologies has a big impact on a wide range of industries, for example; telephone operators have been mostly replaced by automated switchboards and answering machines, and automated teller machines now make money transactions much easier and help cut down visits to the bank.

Industrial automation is used in a wide range of industries for many different types of application and some of these can include:

o Mechanical engineering

o Industrial controls

o Electronic engineering

o Integrated circuit design
o Motion control and fluid control

o Data acquisition software

There are many advantages and disadvantages in the scope of industrialization and some of these advantages are:

o Economy improvement

o Can be used to carry out dangerous tasks

o Can replace tedious human tasks

Some of the main disadvantages are:

o Automation has its limits and at present is unable to replace all human tasks

o Development costs can be unpredictable

o Initial set-up costs are usually high

It is thought by some critics that automation will lead to higher unemployment, yet others argue that the opposite is true and that automation has led to higher employment.

If you are in need of this service check out our product pages, they contain many companies that specialise in this. John Cheesman writes about Industrial Automation Technology. Visit the Businessmagnet product page for details and suppliers of Industrial Automation Technology.
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Friday, December 12, 2014

CAD Engineering

CAD engineering is widely used to design and develop products to be used by end consumers or intermediate goods used in other products. CAD is used extensively in engineering process, right from the product conceptualization stage spanning across most stages of the manufacturing process.

CAD is used in almost all engineering based industries like architecture, automotive, consumer, electronic, electrical, machinery, ship building, aerospace, aircraft and construction, to mention only a few. Architects use CAD to design buildings while using the software package to enable drawings and designs. CAD enables civil engineers and architects in a variety of ways like aiding them in architectural, electrical, structural, and interior designs, to mention only a few.

Engineering industries, especially mechanical engineering based companies, use CAD in a variety of ways. Right from creating engineering drawings to 3D modeling, CAD is used in most of the manufacturing process. 3D modeling and pro-engineering packages allow engineering companies to design products or components for machinery, taking care of even the minutest of details. The entire process saves time and money and ensures precision and accuracy. With increasing sophistication in many industries, the design concepts done using CAD are directly fed into the manufacturing process using Computer Aided Manufacturing (CAM) systems. Electrical and electronic engineering industries use CAD for things like PCB designs and wiring layout designs. CAD is also used to design the overall layout of a manufacturing unit.

It wouldn't be far fetched if one were to say that CAD has revolutionized the entire engineering process. CAD engineering enables quicker product turn around times, as a result of which we see more and more new products hitting the market everyday. CAD engineering is responsible for the advent of robotics into the manufacturing sector, with more and more engineering processes being automated for increased accuracy and production.

CAD [http://www.CAD-ontheweb.com] provides detailed information on CAD, CAD School, CAD Software, CAD Drawings and more. CAD is affiliated with Digital Architectural Rendering [http://www.WetPluto.com/3D-Architectural-Rendering.html].
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Saturday, December 6, 2014

Feasibility Study Components

A feasibility study is created in order to minimize risk and to ascertain the viability of a project. As soon as it is certain that a specific project could be carried out profitably, it is only then, that it could be implemented. It is not merely an investigation but at the same time a plan or a framework on how the operation of a business project shall be accomplished.

A feasibility study contains five major components namely: marketing study, technical study, management study, financial study and social desirability.

During marketing study, the researcher must determine if there are sufficient demands for the product as well the competitive position of the firm in the industry. Sale projection for the project must also investigate as part of market study.

The manufacturing process, plant size, production schedule, machinery, plant location and layout, structure, raw materials, utilities and waste disposal is taken into consideration when it comes to technical study.

Management study involves on how the project shall be managed such as the business organization including the organization chart and function of each unit management personnel, skills and numbers of labor required.

In financial study, the researcher should include the assessment of total capital requirements, break-even outputs, sales and prices, amount of sales required to earn a certain amount of profit and the cash payback period.

Last but not the least is the social desirability which is measure by economic benefits to the people living in the community and its vicinities.

No wonder that one of the important steps in business development is a feasibility study. Feasibility study is used to determine the potential for success of a proposed business venture. The success of a feasibility study is based on the careful identification and evaluation of all of the important aspects for business success.

Click here for Feasibility study samples
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Wednesday, December 3, 2014

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, http://www.provinc.net, 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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Sunday, November 30, 2014

Power Distribution and Its Key Factors

Power distribution involves the procedure of moving electricity from one location to different locations. Electricity is distributed through electric grids which are quite difficult to maintain. According to studies, the existing distribution infrastructure is insufficient to meet the growing demands of the requirement in different parts of the world. Uninterrupted electricity is indispensable in various fields which include hospitals, public utility centers, military bases, industries, schools and homes.

Factors in Power Distribution

Power distribution begins in an industry where electricity is generated with the use of a turbine with steam, wind or water. When electricity is generated, it is transported to a transformer substation to step up the voltage. It is then allowed to travel through high voltage transmission lines. The transmission lines are then connected to other substations. The voltage is then stepped down so that it is safe for both household and industrial usage. Electric lines are transferred from various substations to homes, industries, factories, offices and many other places.

The electrical grids are specifically designed to supply electricity to different areas. The grids are closely connected to one another to meet the demands of consumers. Power is routed to a place where it is required from the place where it is less used. Balancing the distribution is quite a challenging task. The main aim of power distribution units is to provide a constant and uninterrupted supply to various consumers without the possibility of overloading the entire system.

In the case of individual grids, the supply and demand of electricity can be monitored easily and adjustments can be made accordingly at different levels. Today there are computerized systems which make the adjustments on the grids. Any type of issue with the grid can cause ripple effects on the entire grid. This can cause shortage of electricity.

A standard service drop is offered to customers when they are connected to the grid. Household and domestic lines are offered a lower standard service drop compared to industries and factories which require higher level of electricity.

Use of Distribution Units

Power distribution units are installed to meet the growing demands of consumers. These units are mainly categorized into three types which include the basic unit, the switched unit and the metered unit. The basic units supply incessant electricity to networking units so that it can function continuously. The switched units are quite similar to the basic units but it can reboot automatically. Manual reboot is not necessary in these systems. It can also be switched off manually so as to route electricity to areas where it is in greater demand.

The metered units are also quite similar to the basic units but the consumption amount can be metered with the help of these units. It has additional features which include providing information about the capacity of the unit and its power requirements.

These units are available in different varieties and its purchase also depends on various factors. These electric units enable uninterrupted supply of electricity and also a perfect balance between demand and supply of electricity.

Anamika Swami has wide knowledge of B2B Marketplace and Business industries. Get latest updates on power distribution which are of great demand in B2B space. You can find more free information about electrical appliances at our Catalogs.indiaMart.com
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Thursday, November 27, 2014

Happy Thanksgiving!

We Would Like to Wish You and Your Family a Very Safe and Happy Thanksgiving!

Tuesday, November 25, 2014

Automation Robotics

The main purpose of automation robotics is to optimize the work that has to be done to effectively complete the tasks required to manufacture products. Automation robotics has special purposes, to minimize the amount of time, effort, and energy that is required to produce a product. It is also needed to reduce the amount of waste of raw materials and rework of products that are not completed to specification. Tasks of automation robotics also include the maximization of quality in products that are finished and the safety that is needed in producing them. The definition of automation robotics is not as important as is the understanding of how to apply it to operate in a manufacturing environment for the purpose of making products in the most cost effective and safe way as possible. An engineer who is responsible for creating an automation scenario for a manufacturing company will draw from his knowledge of how robotics are used to accomplish tasks and his ability to apply robotics in an economical way to build an automation solution.

Automation robotics can have the following characteristics:

- an arm that can be configured in different ways
- a number of degrees of freedom which allows movement in multiple directions
- load-bearing capability
- defined work area
- some control system
- a source of power
- repeatability of tasks performed
- accuracy of tasks performed
- reliability in tasks that are performed

Least complex of the robots in industrial applications are those that do lifting and placing. These devices are the ones that do loading and unloading, pick and place, material movements, and palletizing. The ability to move heavier loads and work in unseemly surroundings are characteristics of these machines. Sometimes these devices replace unskilled labor and usually require low maintenance.

The next level of complexity in robots is occupied by the industrial application devices. These do tasks like spray painting, spot and arc welding, tasks that are normally done by skilled labor. A lot of these tasks are harmful to humans because of dangerous exposures that are generated. This type of device requires the ability of servo or spherical control in order to do their assigned tasks. These robots can use training to get their work defined before they are put to the automation tasks. In some cases sensors are used to help give them consistency in their work. Robotics of this type are very good at cutting operating costs and improving the quality of products that come off the production line.

Looking at the top level of complexity in robotics you can see the devices that perform tasks like assembly of products. Consistency and repeatability are high virtues of these devices. Tooling that is at the end of the arm of this devices has the ability to be very precise in placement of pieces in their proper places. These can make minor adjustment in their work to meet the needs of putting products together correctly.

Since it is the job of robotics to optimize the work in the production environment, it is important to define what tasks can best be done by robotics and what task should be best left to human accomplishment. If two tasks in manufacturing are very similar in characteristic, it is much easier to let a robotic move into the new operation, if it similar to an operation that the robotics has performed earlier. The less similar two jobs are the more likely that a human could make an easier transition to the new task. Human abilities accumulate over a lifetime, while the robotic has to start a new task from zero experience and will require extensive training to accomplish it. Robotics do not have any inherent characteristics like humans do. Some humans will better at some tasks rather than other tasks, while different robotics begin a given task from the same starting point that has zero knowledge or ability.

In deciding whether a human or a robot should do a certain manufacturing task there are certain possibilities that might help to guide you to a decision. If the task is too complicated for a robot to perform within economic reason, then the task should be left to a human to do. A robot would win the chance to perform a task if the job was too dangerous for a human to do, or space or other special considerations come into play. If a robot can generate lower cost, better quality, better consistency, or other positives then the robot would win the job.

There are definite decisions that you must make when you are deciding to put a robotic to work in the place of a human. Even the possibility of labor shortage would be a reason for putting a robotic to work.

John Mitchell, the author of this article, is President of Provision, Inc, an online publisher of information about the uses of automation in manufacturing. The company website, http://www.provinc.net, allows companies to submit requests for quotation to automation specialists.
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Friday, November 21, 2014

Groundwater Remediation, A Pressing Need in Today's Times

Water pollution today has reached alarming levels in most parts of the world. Surface freshwater bodies like ponds, lakes, streams and rivers have become increasingly polluted. This has resulted in groundwater becoming an important source of drinking water in many countries. In the U.S alone over half the population depends on groundwater supply for daily water needs. Groundwater is today used for a variety of purposes from agriculture to industrial, to irrigate large farms as well as in the production of goods.

Groundwater pollution causes

Increased human activities like construction and mining have resulted in pollution percolating into natural groundwater reservoirs. Some of the causes of groundwater pollution also include stagnant storm and rain water as well as surface water runoffs containing high amount of chemicals and organic waste like sewage. This results in large scale contamination of groundwater resources rendering it unfit for human use.

Groundwater remediation

Along with waste water treatment plants which seek to use recycled water, groundwater remediation has also become an important initiative to provide safe and clean water for human use as well as conserve the environment. Groundwater remediation involves specialized equipment and experience to conduct the various purification operations. Groundwater filtration involves removal of solid and dissolved impurities which includes organic material, chemical substances as well as gaseous elements.

Different remediation techniques

There are different techniques used to purify groundwater. An effective method involves use of vacuum machinery to pump out groundwater for treatment as well as extraction of gaseous vapors from ground water and soil. The method known as dual phase extraction makes use of carbon adsorption process by way of granular activated carbon filters and portable water filtration units.
Most groundwater remediation techniques use a combination of different methods for water purification depending upon the requirements. For example if the groundwater contains a high concentration of heavy metals then chemical precipitation reaction is used to ensure conversion of the metal ions into insoluble compounds. These particles are then removed by way of simple filtration or by way of settling chambers.

Activated carbon particles

Activated carbon is an important part of the purification process owing to its high surface area which causes organic impurities to chemically bind to the carbon particles. This process is known as adsorption and is highly efficient in removing dissolved organic impurities which even boiling the water does not render harmless. Active carbon is used in the form of fine granules spread out over a wire mesh to further increase their surface area for maximum effectiveness.

Groundwater remediation is an important aspect of maintaining public health and as such should be conducted at regular intervals by the concerned health authorities.

Ashley writes for Pureeffect.com about the various ways in which the effects of pollution can be remedied. For more information about environmental solution visit our site.
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Tuesday, November 18, 2014

Supervisory Control And Data Acquisition

What is SCADA?


SCADA or Supervisory Control And Data Acquisition is a large scale control system for automated industrial processes like municipal water supplies, power generation, steel manufacturing, gas and oil pipelines etc. SCADA also has applications in large scale experimental facilities like those used in nuclear fusion. SCADA systems monitor and control these operations by gathering data from sensors at the facility or remote station and then sending it to a central computer system that manages the operations using this information.

The SCADA System

The sheer size and of the operations we saw earlier demands that the control system be equally elaborate to handle the requirements. This is where SCADA scores. The SCADA system is equipped to manage anything from a few thousands to a million input/output channels. The technology is still evolving and we can expect an expansion of the market for SCADA. A full fledged SCADA system is made up of signal hardware for input/ output, networks, control equipment, user interface (sometimes called the Human-Machine Interface or HMI), communication equipment and the software to go with it all. And here we are talking about the central command system of SCADA. The central system is often miles away from where the operations take place. Thus the system also needs on-site sensors to collect and monitor data.

How SCADA Works

The measurement and control system of SCADA has one master terminal unit (MTU) which could be called the brain of the system and one or more remote terminal units (RTU). The RTUs gather the data locally and send them to the MTU which then issues suitable commands to be executed on site. A system of either standard or customized software is used to collate, interpret and manage the data. SCADA as of now uses predominantly open-loop control systems, though some closed-loop characteristics are often built in. As this is an open-loop system, it means that SCADA system cannot use feedback to check what results its inputs have produced. In other words, there is no machine-learning.

SCADA and Other Control Systems

There are several other systems that are used for similar purposes as SCADA. These are generally called Distributed Control Systems (DCS). The functions are the same; the difference is in the range. Distributed Control Systems are typically effective within a confined area like a factory complex. Thus the communication is carried out through a local area network (LAN). These networks are highly dependable and fast, and can manage closed-loop (feedback based) control. DCS networks have their limitations. They cannot cover large territories. This is where SCADA comes in handy. However the communication systems are not as reliable as a LAN, and therefore it is not viable to implement closed-loop control. Right now, the size and scope is what mark SCADA.

Riktesh Srivastava PhD Internet Technologies MS (Electronics and Communicatios)
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Wednesday, November 12, 2014

How We All Benefit When We Choose Energy

America’s bright new energy future has not only repositioned our nation on the world stage, but perhaps more importantly it has led to enormous benefits for our families, communities and our economy right here at home. When we choose to support greater energy production, we are choosing to support an increase in jobs, a stronger economy and greater energy security.

Sunday, November 9, 2014

Data Monitoring Systems - Why Are SCADA Systems Important?

Data monitoring systems such as SCADA are becoming more and more relevant in today's business environment. SCADA which actually stands for supervisory control and data acquisition is a system that is being used by a variety of businesses nowadays. The entire system is actually a well planned network of interconnected computers. There are a number of remote terminal units that do the process of collecting data from the field and sending it to the central station master, through the network of the communication system that is in place.

One of the biggest advantages with the system in place is the fact that the top management always has timely and accurate data available to them at any time. The real time data can be used by them to optimize the operation of a plant or a business process. The system enables considerable improvement in the efficient running of a plant. Moreover, it also ensures data safety, another crucial aspect that needs to be considered by businesses today. When viewed from a company's perspective, the system is invaluable, with it lessening the operating cost quite significantly. The efficiency of the system directly translates into higher profits for businesses operating in various different sectors.

It is important that SCADA systems are used by competent staff that is well trained on using the system. There are times when companies may not pay heed to this important aspect in their eagerness to install the system. There are software complexity issues that need to addressed by the top management while they go about the process of implementing the system. The smooth running of the system needs the perfect and coordinated running of the different components that make up the system. For example, it is just not enough if the communication links are working properly, because it is also important for the transducers and control devices are also working in perfect coordination with the rest of the system.

Well planned data monitoring systems form the lifeline of industries these days. It is important that businesses also take care of training their staff on SCADA systems for it will help in maximizing profit and the smooth running of the business.
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Thursday, November 6, 2014

What is the SCADA System?

A SCADA (supervisory control and data acquisition) system is a system that consists of a number of remote terminal units (RTU) that collect the field data and connected back to the station master through the communication system.

Accurate and timely data (usually a real-time) provide optimization of the operation of the plant and process. Another advantage is more efficient, more reliable and more important, safe operation. All this results in the operating cost is lower compared with the previous non-automated systems.

There is a reasonable level of confusion between the definition of SCADA systems and process control systems. SCADA have additional remote control or remote operation. The question is not how 'far' - that usually means more of a distance so that the distance between the location and control of the location controlled very large direct-wire control is not useful (for example, a communication link important component of the system).

SCADA successful installation depends on using proven and reliable technology, with comprehensive and adequate training of staff in the operating system. There is a history of failed SCADA systems - factors that contribute to this system, including inadequate integration of the various components of the system.

Today hardware reliability is less of a problem, but the increasing software complexity is producing new challenges. It should be noted in passing that many operators judge a SCADA system not only by the smooth performance of the RTUs, communication links and the master station (all falling under the umbrella of SCADA system) but also the field devices (both transducers and control devices).

Richard Binder, SCADA Security Specialist. Visit my website about SCADA at http://www.controlscada.com
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Friday, October 31, 2014

Important Factors to Consider During a Feasibility Study

A feasibility study is conducted to identify if a project is worth pursuing till completion. Feasibility studies are often conducted prior to project commencement; however in some instances, the project managers may decide to conduct parts of feasibility studies parallel after the project has begun due to time constraints.

Organizational and cultural feasibility determines if a project is suited for the existing and future organizational culture. This study will look into finding data on overall impact on organization, employees, structure and motivation. As the all employees should be satisfied with the project work that they get involved in, a new project should not bring unwanted risks to the whole organization.
Even though most modern organizations are moving with the fast changing technology trends, it is not possible to keep track of all of them. Technology feasibility determines if the organization has the necessary resources to complete the project. If not the ways of acquiring that knowledge and resources are investigated within the budget limits.

It is a fact that many projects often fail to meet their initial deadlines. Schedule feasibility evaluates if a company or department can allocate necessary resources for a project for a set period of time. Some of the deadlines will be mission critical such launching a new terminal at an airport or opening a new faculty at a university. In such situations, the schedule feasibility plays a critical role.

Resource feasibility identifies the overall resources required for a project. Some projects such as IT and Engineering design will require a lot of human resources. Manufacturing and production projects will require more physical resources. Based on the needs of the projects, the resources needed, methods of procurement, recruitment, allocated budget the end result may differ.

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Tuesday, October 28, 2014

Supervisory Control and Data Acquisition (SCADA) System to Control Industrial Processes

SCADA typically refers to computer based industrial control system which basically aids to monitor and control facility based industrial processes and infrastructure. Here industrial processes include production, power generation and manufacturing in a repetitive or continuous batch and infrastructure includes treatment of wastewater, water distribution and treatment. Infrastructure processes could be private or public.

SCADA basically works as a centralized controlling and monitoring system for the entire project area or sites. It is practically used in gas refining, power plants, telecommunications, water and waste control systems and transportation. SCADA system includes software and hardware components. This process requires SCADA software installed in a PC where hardware aids to gather and feed data into the computer. Data processing unit of the computer then processes the gathered data of the SCADA system in a timely manner. SCADA also keeps record of all events as a stored file on the PC memory. By buzzing alarms SCADA gives warning of the hazardous condition of processes.

SCADA controls and monitors a process in a loop system. As an example- in an industrial process there is a PLC system to monitor and control discharge, pressure and temperature of steam flow through a pipeline. These parameters bear a significant effect on production. That is why it becomes necessary to control these parameters perfectly to have better production with minimum cost. So the significance of controlling industrial process parameters has become clear to us. Now, the value of discharge, pressure and temperature can be controlled manually by putting required values by an operator. In that case SCADA aids to control the total loop system of the steam flow process. The same thing happens after any chemical plant, and here SCADA plays a great role to overcome the critical situation with pressure and temperature control systems. To produce sulfuric acid, it is necessary to control the temperature and pressure of the process accurately. To do it aptly and easily SCADA loop control system becomes necessary in that production process.

Data acquisition starts at the PLC level with all readings of pressure, temperature and flow status reports which are communicated to SCADA. The system then compiles the data and allows an operator to monitor position to take necessary supervisory decision. The data acquisition system allows an operator to override or adjust PLC controls.

Finally, it can be said that SCADA refers to the wide range of implementation of distributed database. SCADA systems bear significant importance in the field of water supplies, electric grids and pipelines.

I came to know about all these from online research. I believe this article would help others to know about SCADA and Data Acquisition System.
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Saturday, October 25, 2014

Automation Engineering Services

Automation engineering refers to the application of specialized knowledge in the field of automation control. It provides specialized services to the industries to facilitate the smooth functioning of automation control system. Automation engineering measures quality and improves quality of products in the manufacturing sector. It is the automation engineer who is capable of testing the motors of every types and sizes. He can manage both the big integral motors as well as DC motors. Both these types are used in the automation control system. Automation engineers can design and build test system and automated assembly for a number of applications in the industrial automation. These systems are very useful for the automation at cell level. Thus automation engineers are of great help in the field of manufacturing for the purpose of quality testing, computer control as well as productivity.

Engineers specialized in the field of automation control are capable in integrating the test and control hardware with software control to provide a dependable system in the industrial automation. Automation engineering makes factories capable to reach their efficiency and production goals regardless of its structure, size or system. It deals with large complicated assembly systems with various component parts, test requirements and assembly steps or even a small system. In both the cases it meets the requirements of a manufacturing unit. Automotive component testing one of the branches of automation engineering can deal with each application. It has the precise techniques and equipments to meet the demand of an industry. Under the automation engineering a tester is so designed to stand to all the required tests with accuracy and in a fixed cycle time.

In automation engineering industrial grade hardware and computers are used for testing which are efficient enough in measuring with fast data acquisitions and high precision. It thus reduces the testing time that goes in cycle. The software and control engineers in the automation engineering are highly qualified. They acquire expertise in programming languages, development platforms and different operating system platforms. They adhere to the safety guidelines while developing custom control system through concepts and documentation. Thus the automation engineering discipline has made possible the implementation of a variety of automation control and testing skills. It has helped built various building equipments for customers in various different industries.

Mechanical engineering team of automation engineering makes it sure the system of a manufacturing unit has the tools necessary to utilize fully the capabilities of the test system. Precision components and durable designs are the characteristic features of all automation engineering system.

Advanced Automation Associates, one of the leading automation control [http://www.advancedautomation.com/automation_solutions.html] service provider in USA. It provides HMI design [http://www.advancedautomation.com/process_automation.html] and industrial automation.
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Wednesday, October 22, 2014

Voters Agree it’s Time to Choose Energy

Energy issues are top of mind with voters this election and they are listening closely to what the candidates have to say. And with good reason, voters agree that increased oil and natural gas production is helping to lower household costs while creating a stronger economy.

Sunday, October 19, 2014

Fire and Explosion Caused by Human Error and Equipment Failure

I’ve spent much of my 40+ year career in the petroleum and chemical industries. One might say I’ve pretty much seen it all when it comes to accidents. Unfortunately, I’ve have firsthand experience with the loss of good friends and coworkers due to what I call the human factor.

The human factor is at work every second of every day in every type of business and personal setting. It’s when hard working, good people get careless while performing routine everyday tasks. For whatever reason, a procedure intended to protect personnel is intentionally bypassed or carelessly forgotten and in most instances it involves only one or two steps being bypassed or forgotten that allows all of the stars to line up, and then tragedy strikes without warning which in most cases lead to serious injury and sometimes death.

I’ve spent much of my career using technology to create iron clad solutions that overcome human error and equipment failure in hazardous types of operations found in every day businesses that we are all familiar with. One such business is the loading of fuel onto large tanker trucks that take fuel to the local gas station that all of us pump into our cars. One such iron clad solution developed by Frontline Environmental addresses the more than 1500 spills that happen every day throughout the United States in truck, marine and aviation fuel loading facilities. The GuardDog™ is a patented technology designed to overcome human error and equipment failure during the loading of fuel at high transfer rates of more than 10 gallons per second. In “real-time” GuardDog™ continuously monitors the fuel delivery equipment to determine if it is performing properly or not. If not, the GuardDog™ will take a preemptive action to prevent the spill accident within 750 milliseconds. The Department of Defense and the USAF determined GuardDog™ to be 100% effective in eliminating spills over a 12 month period during a case study and real world test conducted at Travis Air Force Base. Due to its success Travis AFB has since standardized on GuardDog™ and is protected 24/7 365 days a year from spills.

For more on GuardDog™ and other bullet proof solutions that protect life, the environment and assets give me a call at 707-331-3503. 

Thursday, October 16, 2014

A Guide to Finding the Right Engineering Company

If you have been trying to seek out a really good engineering company for a very long time already then it is clear that there are quite a few things you should go out of your way to take into careful consideration before you make the choice to hire any one company in particular, and the reason to do all of this is so that the company you eventually end up hiring for the project is going to be a company that will be the best of what you can afford. It can take time to find the right engineering consultants out there but at the same time it is always a good idea to take as much time as you feel you may need, since you really want to be able to say that the engineers you ended up hiring were the ones that were best for the job. Along the way it could be really helpful if you spent a bit of additional time trying to find out more about engineering companies in general, so that you would immediately know what to expect if you were offered any good deals in the future.

Remember that it is likely you will find a lot of different engineering companies out there, so at the end of the day a big part of what makes a good deal lies in being able to choose a proper company that can offer you a very high standard of service but that at the same time is going to be able to get you what you want for a lower price. This is important because depending on the size of your project and how much work needs to be done, you may end up spending a very large amount of money on engineering services, and this cost can go a long way towards ending your budget. It would therefore make sense to go out of your way to compare offers and try to see if there is any possible way that you would be able to get a special offer for services of this sort, which are certainly in very high demand in this day and age.

The very best way to make it easier for you to find a really good engineering company would be to go online and do a bit of your own research on the topic, with the intentions of learning as much as you can about engineers and what services they offer to people like yourself. This will help you a lot because you will then be able to make a selection based on a good understanding of what engineering is all about, and this can help you to make a good deal and save some money.

As you can see, it is clear that there are a great deal of things to keep in mind when you are out there on the hunt for a really good engineering company to assist you with your new project in the future.

So are you searching for the finest engineering consultants Perth has to offer? E-Tec Consultants is the right place to be. Check out their website etec.com.au for more information.
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Monday, October 13, 2014

The Importance Of Engineering Services and Disciplines

Our complex world continues to prosper. It continues to grow and change. The world as we know it and enjoy it is the way it is in part from engineers and the services they provide for us to enjoy. When we cross bridges, flush a toilet, run a lawn mower or enjoy the convenience of driving our car thank an engineer. The branches of engineering run far and wide. The many concentrations and extensions of engineering services allow us to enjoy the benefits we do in society.

Civil engineering is of utmost importance to allow for society to blend growth, functionality and natural environments. The designs, construction and maintenance civil engineers provide allow us to use the land without exploiting it. Within civil engineering there are several sub-disciplines. Each brings a unique twist to the discipline and helps transform the environment.

Geotechnical engineering explores the use of raw materials coming from the Earth and how using the resources will affect the environment as well as the project on a whole. As the name implies they are mainly concerned with the geological resources within a civil engineering project site. They explore, extract and process the raw substances and give analysis and recommendations based on the information collected. For instance when doing land surveys they often perform a soil analysis. If the soil analysis were to find substances within the soil that could be hazardous if leaked into a water supply a project may be moved to another plot of land.

Structural engineering is a division of civil engineering that handles issues that arise with the structures support. They ensure that a structure is stable for the environment that is built. In California buildings are built structurally sound to prevent major disasters during earthquakes. Structural engineering services also provide for buildings to support incredible winds, weather related events and different architectural engineering.

Transportation engineering ensures the safety of people and goods as they are transported via roadways, waterways, rail systems and through the air too. This includes things we take for granted such as stop lights and the way they are timed out. Engineering services provide for us to enjoy traveling safely without too much congestion and without running into one another. They also provide railway safety and air safety to allow for safe travel and design programs to allow for tracking.

Environmental engineering applies to improving, maintaining and protection of the environment we are building in and around. The services they provide are designed around the ecosystem. They apply sanitary engineering, hydraulic engineering and municipal engineering. Working together these engineering services help protect our surroundings and allow the environment and society to design a co-habitat for all the living and non living resources in it.

Civil engineering services are just one of the many that allow our society to function as it does. Engineers design, implement, maintain and provide the analysis to keep us safe and moving forward. Engineering services allow for the function of everyday life and provides solutions for the hiccups that arise.

If you have enjoyed this article from Kevin Germain at CPS please visit our website today at http://www.monumentengineering.com/civil_engineering.php you will find useful information on engineering firms.
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Friday, October 10, 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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Tuesday, October 7, 2014

Energy 101: Concentrating Solar Power

From towers to dishes to linear mirrors to troughs, concentrating solar power (CSP) technologies reflect and collect solar heat to generate electricity. A single CSP plant can generate enough power for about 90,000 homes. This video explains what CSP is, how it works, and how systems like parabolic troughs produce renewable power.

Saturday, October 4, 2014

Automation Control Mechanism

Automation control refers to the system which controls the industrial processes through computers. In other words this system is one step ahead of mechanization. Mechanization requires manual operators for machinery to improve the efficiency of the work. But in the automation control system it is the system itself that manages to facilitate the work and whole process of an industry or organization. It reduces the need of manual help. The requirement of human mind and intellect is less emphasized in the automation control system. With the great advancement in the information technology and computer network the system of automation control has got a shot in the arm. There is a greater emphasis on the automation control in every field of work, be it industry, support system, electricity generation and the likes.

In the global economy of today the system of automation control is playing very important role. The automation engineers create a system combining organization tools with automation devices. This system makes possible a number human activities and applications. But automation control has not become widespread. There are still many jobs that are outside the domain of automation system. Such jobs still need manual expertise. The computers play the main role in automation control. There are various level of computes based on their efficiency. To facilitate automation control the computers are so designed to enable the synchronization between inputs and out puts. It results in a controlled mechanism for any industrial process. Such improved forms of computers are known as programmable logic controllers.

Precisely speaking the automation control employs computer human interface or human machine interface. It helps communicate with programmable logic controllers and some other specialized computers performing different functions in the industrial processes. The stationary engineers or the service personnel control and monitor this human machine interfaces. There is always a grater emphasis on the automation control in developed countries. Earlier its main purpose was to increase the cost effective production in manufacturing industries. Now the since is changes. The main purpose of this system now is to improve the quality of products. Automation is also being increasingly applied to increase the flexibility of the manufacturing processes. But there is black side of the automation system. Though it reduces the chances of human error diminishing the need of manual employment but at the same time greater dependence on it has increased the chances of more serious and grave consequences in the factory system.

Advanced Automation Associates, one of the leading automation control [http://www.advancedautomation.com/automation_solutions.html] service provider in USA. It provides HMI design [http://www.advancedautomation.com/process_automation.html] and industrial automation.
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Wednesday, October 1, 2014

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Sunday, September 28, 2014

Calibration Service Keeps Your Machines in Top Notch Form

The importance of calibration service cannot be undermined when it comes to bringing your machines and equipments back to their original working form. This process helps you align your machines with the original manufacturer's specifications. By carrying our regular calibration checks, you can make sure that your machines remain in top notch working condition and you are able to derive a consistent output from them. To ensure this, it is also important to partner with a calibration services provider with a proven track record. Your chosen calibration firm should have all the latest gadgets, machines and know-how to carry out faultless calibration.

Typically, a firm would carry out calibration on-site or in a laboratory and once the machine is fully calibrated, the service provider will also present you with a certificate. These certificates hold a great value especially if you wish to get an ISO certificate or other such industry certifications.

A firm that has an advanced force lab should certainly be your chosen partner. If the company has a temperature-controlled laboratory, qualified personnel and sufficient equipment, you can expect high-quality service and fast turnaround. Alternatively, if you require on-site calibration, you could choose a company that has technicians and field engineers throughout the United States and Canada. These technicians and engineers can provide you accredited Calibration service at your facility.

Following are a few parameters to keep in mind while choosing a calibration service provider:

  • Firstly, take into account the experience of the calibration services provider. Give first preference to a firm that has several decades of experience in calibrating, repairing and certifying machines and other equipment.

  • The true mark of an industry leader is continuous improvement in technology and resources. So if a firm has constantly improved its equipment and procedures over the years to gain an edge over competitors, you can certainly expect satisfactory results that meet or exceed your expectations.

  • Also, it is important to check if the firm adheres to industry standards and certifications. This will ensure that the calibration and repairs carried out by the technicians are at par with global standards. There are certain reputable firms that offer such services all throughout North America.

For companies that need to strictly adhere to government and industry regulations, flawless calibration services have no alternative. Hence, it is very vital to choose a firm carefully. There are certain firms that stick to their commitment of providing continued and consistent training to their technicians and engineers. Imparting theoretical as well as practical training is important for a skilled calibration service technician as they need to know everything about the machines and accessories offered by the company.

I am an expert article writer and enjoys writing and sharing articles on topics like Calibration service Material Testing, hardness tester, Rockwell tester, and Material Testing Equipments.
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Friday, September 26, 2014

The Flexible Automation Processes

From the early twentieth century the modernization of the business has been adopted in some or the other way to undergo modern renovation. The old production methods have been replaced by the new concepts and new methods. These new methods are called Just in Time, industrial automation, lean manufacturing and many more. But all means the same, which have completely revolutionized the system of working in an industry comparable to the older system. This new process is in for the benefit of owners to maximize profit in less time. It is true that this is replacing the labor workers but you can spend that money on to hire new skilled workers who are required in other departments.

Through this you can bring efficiency in the procedures of working which can build your reputation in the market for good cause which can yield profits.

The automation of industries has made the function of industry smoothly without the much help of man. The automatic machine tools are run through a computerized control and in this process the industries use industrial robots for machining and handling of parts. This type of electronic design interfaced with the mechanical tools for structural working of the machines is one of the main characteristics of modern production systems. This process is the automation of the industries.

These new methods of automation were originated from the very need from the industries to adapt to a new economic situation, especially after the debacle of oil crisis in the 70s. These adoptions of new technology made the production more lightweight and flexible and have also increased the efficiency. The new techniques and new designs are being introduced to the market with an effective testing by the researchers, so that the market can easily adopt it in a well equipped manner for a better experience of efficient working. In short we can say there is no longer the way of assembling the units are done as done in the older generation. It is one click way to start these huge automated machines to do the work as a skilled worker in a very short time and in an efficient way.

The more time saved while production the more new order you can have on hand. And more work in both hands from the view of industry then more chance to earn good profits. This is what a capitalist looks out for while he invests in a market. While you do have good investments from the market on your company then you know it's a prosperous time for the growth to your organization.

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Monday, September 22, 2014

Energy 101: Hydropower

Learn how hydropower captures the kinetic energy of flowing water and turns it into electricity for our homes and businesses.

Friday, September 19, 2014

The Differences Between Software Development and Software Engineering

Software development and software engineering go hand in hand when it comes to the implementation of software. Software development deals more with the creation of the software and when this is complete, software engineering takes over with the creation of software systems. Both of these disciplines are at times interchangeable and without much difference to the layman. If you just want to have one specific piece of software designed, such as database software that will keep track of your bird watching hobby, then you'll just need software development. If, however, you want your bird watching database to be able to support multiple functions, such as delivering a report with statistics and results, then you'll more likely need the expertise of software engineering.

Software engineers will implement and design software applications through the use of many mediums. These software applications will then be used for a variety of purposes that include business practices to entertainment purposes. It is these software applications that allow users to make their time on the computer as functional and productive as possible. Types of software applications include language applications, office applications, entertainment packages, and applications for education.

The cost of hiring a software developer will be significantly less than hiring a software engineer. Before you make your final decision about what you want the software to do you need to plan you budget, your timeline, and determine what you want the end result to be. The industry of software development continues to grow each year as more and more businesses are having their own software developed for them that is specific to what they do and what they want the software to do. Most companies will already be using some type of software application, such as Office Suite, and most likely won't need another application developed for them. For most intents and purposes you'll be fine hiring a software developer for you and your business needs.

James Hunt has spent 15 years as a professional writer and researcher covering stories that cover a whole spectrum of interest. Read more at [http://www.software-development-center.com]
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Tuesday, September 16, 2014

Benefits of Engineering Consulting

The preliminary requirement for conceptualizing or building anything is engineering; and it is an established fact that its consulting is way better than interacting with an individual.

Consulting services offers several benefits:

A consulting firm will engage a group of experts who bring their experience into your project. They are goal oriented and take into account important scientific and economic factors. They understand the project and related problems and come up with intelligent cost-effective options to benefit the parent party.

The best part of consulting against working with an individual is that many minds come together, debate, deliberate and construct a viable solution. This may not be possible while working with a single engineer. After all a consulting team will constitute, not just engineers, but technologists, business analysts and other domain experts.

Obviously when a team of experts from related fields, work together under a mechanical engineering consultant, the collaborative effort along with the several important and complex factors that eventually contribute to the success of the project are taken into account.

The basic concept of consulting is to help businesses meet their design and construction needs. The requirement may range from building a completely new structure replete with heating, air-conditioning and electrical fittings or renovating an existing building to suit client requirement.

Consultants offer a range of services in building science and engineering that include land assessment, building plans, landscaping, inspect and repair existing structures and more. Firms make use of quality software such as CAD and the like to create mechanical assemblies based on assessments.

Advanced engineering consulting includes:Analysis, diagnosis, designs and operation of mechanical systems; expertise in fracture of manufacturing materials; mechanics as well as the dynamics of fluid flow; and thermodynamics.

Basically a modern mechanical engineering consultant works on everything from transportation, food production, building, energy generation to electronic devices. They improve clients' business processes by providing quality solutions.

Every consulting firm must take the following steps to popularize their service:

• Carry out an extensive market research to identify potential business.

• Define services so that prospective clients get a basic understanding of the services

• Have a website that clearly highlights consulting services

Advanced engineering consulting:

Accomplished consultants provide quality, safe and cost-effective consulting services. They have the capability to create digital representations of mechanical drawing layers so that the client can actually see the shape the firm intends to give the project. Services include: 2D drafting, parametric modeling, assembly modeling, production drawings, bill of materials etc.

Mechanical engineering services include: design and drafting; manufacture design; safe load tables; load testing; forensic and failure analysis; Gantry cranes design and verification; car platforms and hoists; Non destructive testing; mechanical drafting; simulation; 3D rendering; vibration and fatigue analysis; hydraulic cylinders, vehicle hoists and platforms among other things.

The consultants are expected to adhere to strict quality standards that include:

Identification of hazards; risk management; safety equipment for working at heights; construction of safe work platforms; man boxes, cages; manual handling aids and more.

Suzzane Miller is a qualified article writer, blogger and researcher with years of experience in primary as well as secondary research on mechanical engineering & consulting services.
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