The Three A’s – Adopt Real-Time Monitoring, Apply Corrective Action, Avoid Unplanned Downtime

Industrial innovative Wireless Real-Time Monitoring (Industrial IoT 4.0) is a permanently-installed technology that uses unique sensor technology, wireless data delivery, and advanced analytics to continuously monitor for all rotary machinery equipment like motors, pumps, fans, blowers, turbines, etc. With the increasing availability of low-cost and effective sensors and wireless technology, today’s plants have the opportunity to dramatically improve overall operational performance if they can leverage and enhance the existing sensing capabilities within their operations.

While sensors have traditionally been used to control large industrial facilities, they also can serve as a natural source of data for driving operational excellence in key areas such as asset reliability, energy management, and environmental compliance. All that’s needed is the right strategy.

Industrial environments remain some of the most challenging and hazardous environments in the world, requiring a scalable, resilient and flexible Wi-Fi solution that can withstand extreme conditions in remote locations while helping ensure the safety of workers on site. The new wireless access point supports mobile applications that offer instant access to process control data, maintenance information, and operation procedures, enabling improved plant productivity and worker safety. Among these solutions would be a Real-Time Monitoring System. As potential failures can be identified early on, planning becomes more proactive and controlled. In addition, because there is less downtime, there is also a more efficient use of time and labor resources, leading to better throughput overall.

Among these solutions would be a Real-Time Monitoring System. As potential failures can be identified early on, planning becomes more proactive and controlled. In addition, because there is less downtime, there is also a more efficient use of time and labor resources, leading to better throughput overall.

ADOPT WIRELESS CONTINUOUS REAL-TIME MONITORING

Industrial innovative Wireless Real-Time Monitoring is a permanently-installed technology that uses unique sensor technology, wireless data delivery, and advanced analytics to continuously monitor for all rotary machinery equipment like motors, pumps, fans, blowers, turbines, etc.

SANDS ARGUS | Real-time Advantages

APPLY CORRECTIVE ACTIONS – USING ADVANCED DIAGNOSIS

Artificial intelligence, when applied to vibration analysis, is useful not only for non-specialists users but for experts as well. First, it helps avoid analyzing signals from healthy machines or from those whose defects are obvious. Experts can thus monitor a larger group of machines and devote more time to more complex cases to limit the risk of error in the analysis. Secondly, it provides a reliable and easily understandable diagnosis allowing non-specialists to be autonomous in their decision making, and here again, experts will save time as they are not asked for help at all times.

Advanced diagnostics gives the machine health condition based on the ISO10816-3 limits. It will alert significant maintenance managers to anticipate machine health conditions good, marginal, or critical. Once the equipment crosses normal vibration limits, analytical software will automatically analyze the frequency spectrum data and shows the probable machine failures.

Industrial IoT 4.0 advanced diagnostics will predict machine failure advance and improve machine RUL.

SANDS ARGUS | Industrial IoT 4.0 Advanced Diagnostics

Using AI advanced diagnostics will greatly benefit any industrial process plant including:

  • Mining
  • Oil and Gas
  • Manufacturing
  • Power Generation / Renewable
  • Energy Water Utilities
  • Chemical Processing
  • Food Processing

AVOID UNPLANNED DOWNTIME

How Industrial IoT 4.0 Benefits To Avoid Unplanned Downtime?

Here are 3 things to consider to Avoid Unplanned downtime:

1. Failure Prevention

Can you afford a failure? How long can you run with a line or machine down?

The first category to evaluate is the potential to failure (P-F interval). Specifically, whether a periodic analysis or routine inspection will be able to detect upcoming failure. However, this is making a potentially dangerous assumption that mechanical failures will take longer than 3 months to be seen and cause catastrophic failure. Evaluation of critical parts and factoring them into your process assessment is a great start.

2. Cost Reduction  

Evaluating the cost reductions that a real-time monitoring system can provide. Repairs at precise predetermined asset conditions, allowed by continuous monitoring, can decrease parts cost, increase and maximize the use of consumables, and lessen required downtime in the future by maximizing component lifespan. Doing so makes the most out of current assets, getting the most performance out of machinery before you need to replace them. In the long run, you get to maximize the costs invested in the installations.

3. Increased Intelligence

Increased data from a continuous monitoring system allows for data-driven decisions in planning maintenance and predicting the real lifetime of components in the system by analyzing data and trends. This way, there is definitive data that can pinpoint: when, where, and how a particular issue occurred; and can therefore be managed in the future.

In Summary :

All in all, a Wireless Real-Time Vibration Monitoring System can help you reduce costs, proactively determine and fix issues, maximize machine uptime, and increased intelligence for data-driven decision making. If you operate within the mining, oil and gas, water utilities, manufacturing, or power generation industries, don’t wait until proactive downtime. Your operations could greatly benefit from this approach. Besides, if it’s better for your throughput and can potentially save you a lot of money in the long run.

what are you waiting for?

Here at SANDS, this is a service that we can provide. along with other automation solutions like. MCSA , EnMS

About SANDS

Signals & Systems (India) Private Limited commonly known as SANDS is primarily a technology company manufacturing niche products using embedded technology for the Generation, Transmission & Distribution segments of the Power Industry. On the Services front, we specialize in Energy Management Solutions to manage energy consumption efficiently to avoid penalties. We also undertake testing of Energy meters at the site on behalf of the utilities as part of the regulatory guidelines.

Our core guiding principle has been ‘Make Global Standard Products in India” ever since the inception of the company. We’ve received several accolades and recognition for the innovative products that we’ve designed and manufactured in India. Most of our products have been the first of its kind in the country. We have over a decade, entered into the Industrial segment with solutions for IoT-based Predictive Maintenance such as Vibration Analysis, Current Signature Analysis, & Energy Management. To know more about us and other details, please visit www.sandsindia.com or write to [email protected]