Author: idbox

Energy monitoring systems allow users to have a global view of the performance of their energy installations: monitoring performance, voltage level, temperature, energy production or even failures. However, many organizations do not realize the potential of integrating a monitoring system into their energy facilities. The financial, operational and environmental reputation benefits associated with monitoring systems are lost.

Therefore, we are going to detail the reasons that may motivate you to opt for monitoring and visualization software. In general, implementing tools that facilitate data recording is essential to maximize the operation of energy infrastructures.

Why integrate monitoring systems in solar installations?

Reason 1: Greater knowledge and control

Before collecting data and monitoring on-site, companies often do not know the overall performance of their facilities. Usually, a decrease in equipment efficiency goes unnoticed, since continuous monitoring is not carried out.

A monitoring system provides transparency to solar installations. The data collected is converted into advanced KPIs and displayed in dynamic dashboards that benefit multiple stakeholders. It facilitates reporting and can lead to corrective actions to maximize energy production.

Reason 2: Improved profitability

When analyzed, the data emitted by monitoring systems provides an exact reflection of energy production and global infrastructure. From this information, it is possible to quantify the savings potential and have a snapshot of the facility’s financial situation.

-Reduction of operating cost
Prioritizing the use of renewable sources and maximizing solar penetration reduces the purchase of energy from the grid or fossil fuels. This act translates, therefore, into a general decrease in cost. Relevant KPIs, such as performance ratio, also make it possible to compare actual and ideal energy production. For a diesel solar installation, multi-energy site monitoring will help you track the use of a diesel generator to stay ahead of system maintenance.

-Calculation of the installation’s return on investment
Having this information can benefit owners in the field of investment evaluation. Due to this data, it becomes possible to qualify profitability of investments in solar installations. One way to estimate this ROI is by accounting for the carbon emissions avoided and the operational savings generated.

Reason 3: Easier maintenance, higher reliability

A solution like IDboxRT shows the site diagnosis through the detection of equipment failures. In addition, this solution has capabilities such as configuring custom alarms. These will notify the operator of any abnormal deviation in production which will reduce resolution time. Additionally, this software can display the material alarm that is displayed locally on a unified dashboard.

Conclusion

As we have explored, IDboxRT presents itself as the ideal solution to ensure the optimization of your systems through real-time monitoring of various parameters. The implementation of IDboxRT becomes a fundamental asset to enhance the overall performance of your installation. Our advanced energy monitoring software is just a click away, ready to optimize your operations!

Industrial activity is responsible for almost a quarter of global emissions, which is why companies must manage their role in the environmental environment. To support this commitment, organizations must know the alternatives that allow sustainability and effectiveness to cohere in their operations. For this reason, energy saving are positioned as a key factor to control, due to the volatility in energy prices. To optimize this cost and achieve a balance between sustainability and effectiveness, our experts present the following tips:

1. Digitize energy consumption

One of the first things that can be done to save energy is to digitize consumption. The energy industry is relatively behind in digitalization compared to other sectors, such as banking or medicine. This is because for a long time energy was cheap, the energy transition was not a priority and the available technology was not considered sufficiently advanced. Today we know that, in fact, it is an important investment.

By installing the right sensors and control displays to collect the right information, it is possible to digitalize energy and then perform more complex analyzes and optimizations thanks to digital tools. This will help you improve your energy assessment and identify new savings opportunities. For example, by forecasting consumption and creating energy models of processes, it is easier to create an informed energy saving strategy.

2. View data to control consumption

If you want to reduce your energy consumption, you have to know how much you consume. Only then can you focus on areas of improvement and come up with an effective strategy. The 3 success factors when implementing a decarbonization strategy are: measurement, alignment and execution.

It is important to monitor your processes and visualize your data clearly, since it must be accessible to the different users of a company (from executives at the corporate level to on-site energy managers). For example, digital dashboards can be used that show energy consumption using visual elements such as diagrams or graphs of different types. This is where the digitalization of energy consumption comes in handy.

By using automation tools for data collection and visualization, you reduce human error and can also invest time in ROI and future projects. They can also help you visualize data such as energy losses that would otherwise be difficult to detect. Many leaks are invisible and almost impossible to detect without technology.

3. Identify energy losses

Once we have visualized our energy data, we will be able to identify our losses. Implementing digital tools can help you detect energy losses almost immediately. For example, using historical data and data science, IDboxRT can create a baseline of your consumption. Since IDboxRT also collects energy data in real time, you can be alerted about any deviations immediately. This will allow you to detect leaks as early as possible and act accordingly to reduce energy waste.

Conclusion

IDboxRT aims to harness the power of data-driven decision making with data analytics. Get in touch with our experts and start optimizing your energy consumption today.

A confluence of factors-including high inflation, economic headwinds and stakeholder demands-have presented organizations with a number of challenges in 2022. As you prepare for the new year, explore some of our top trends for achieving growth:

Which business professionals will help address the 2023 technology trends?

We expect these developments to influence business strategies in the coming years by enabling organizations to address four key priorities:

– Optimize resiliency, operations or trust.
– Increase productivity and customer value by advancing solutions, product delivery and connectivity
– Pioneering customer engagement, accelerated responses or opportunity
– Pursue sustainable technology solutions

Theme 1: Optimize
These trends optimize IT systems to achieve greater reliability, improve data-driven decision making, and maintain the value and integrity of AI systems in production.

• Digital Immune System: creates an improved customer experience by combining multiple software engineering strategies to protect against risk. Through observability, automation, and extreme testing, it provides resilient systems that mitigate operational and security risks.ks.

• Applied observability: works from data issued by an organization, using AI to analyze and make recommendations. In this way, final decision making is more agile and precise. When applied systematically, it can reduce response latency and optimize business operations in real time.

Theme 2: Scale
These technology trends accelerate vertical offerings, increase the pace of product delivery, and enable connectivity.

• Specific cloud platforms for each sector with tailored and specific functionalities for each sector. This way, organizations can adapt more effectively to the relentless flow of disruptions in their industry.

• Platform engineering provides a set of tools, capabilities, and processes packaged for easy consumption by developers and end users. It will increase end-user productivity and reduce the burden on development teams.

Theme 3: Pioneering
Focus efforts on enabling business model change, reinventing employee and customer engagement, thus accelerating strategies.

Adaptive AI allows the behavior of models to change after deployment through the use of real-time information. In this way, models and learning are continually retrained within the execution and development environments. All based on new data and adjusted objectives, to quickly adapt to changing real-world circumstances.

Theme 4: Sustainable technology
Delivering technology alone will not be enough in 2023.

Sustainable technology is a framework of solutions that increases the energy and efficiency of IT services. In this sense, it enables business sustainability through the application of technologies such as traceability, emissions management software and AI. It also serves as a catalyst, promoting the achievement of clients’ own sustainability goals. The usefulness of these tools has boosted investments in them, such as asset monitoring, which contributes to greater operational resilience and financial performance.

Bottom line:

• Knowing the trends that stand out in the market allows you to align your technological innovation with your future strategic business objectives.

• Investments in sustainable technology bring operational and financial benefits, and can create interesting growth opportunities.

• The best alternative to cover the operational needs of your business is to contact the best professionals in the sector. Contact us if you want our team of operational intelligence specialists to help you discover your potential!

How could data and sensing technologies, along with monitoring, improve business and environmental outcomes?

Ten years ago, many business executives realized that environmental problems were real business problems. But above all, they protected themselves from negative risks to their reputation. Currently, companies realize that they have to protect themselves from negative impacts and obtain benefits by serving a market with greater interest in respectful products. And costs can be reduced significantly if companies operate more efficiently. In this blog we will detail the usefulness of controlling and measuring the resources used in industrial operations through monitoring programs such as IDboxRT.

The big data and sensor revolution will be very important for a more efficient use of resources. This is because this tool makes it easier for companies to know what is happening with their inputs. Thus, any type of company can optimize its efficiency, regardless of corporate size and the type of resource to control.

For example, the amount of fertilizer that is wasted with rainwater on farms can be measured. Therefore, it will allow us to optimize yields – which is important for farmers and consumers – as well as the use of fertilizers, which will help us minimize the dead zone.

Meanwhile, the World Resources Institute has launched a website that tracks deforestation with millions of data points received every minute via satellite. This will go a long way to ensuring our forests do not go to waste. Another factor to take into account is the role of society. In the long term, they may be direct actors in reducing pollution when this technology evolves. Using surveillance and detection technology, they will be able to control pollution in real time, allowing these levels to be reduced.

Conclusion

Ultimately, what gets measured gets managed. In other words, more precise monitoring could be useful to solve problems, such as that of natural gas. Currently, this gas leaks into the atmosphere in the system. Added to this is that the industry does not have measurements to calculate how much methane escapes. In this sense, the amount of one of the most powerful greenhouse gases such as methane could be reduced.

If we require companies to have leak detection and repair programs, we can keep gas in the pipes. As a consequence, it can be used more efficiently and stop a major source of global warming. In summary, it is key to learn how to extract this resource while damaging the atmosphere and society in general as little as possible. A first step to this is to register and monitor company resources in a personalized way.

Contact us to find out how IDboxRT can help you with monitoring your resources!

Which technology trends are the most important for companies during the past year? A new analysis highlights the development, potential uses and industrial effects of advanced technologies.

Technology remains the world’s leading catalyst for change. Technological advances give businesses, governments and social sector institutions more opportunities to increase their productivity, invent and reinvent offerings, and contribute to the well-being of humanity. And while it remains difficult to predict how technology trends will develop, executives can better plan for the future by tracking the development of new technologies, anticipating how companies might use them, and understanding the factors that affect innovation and adoption.

Here are some of the most important technology trends, in our view, so you can better understand them and consider how they relate to your organization.

Applied AI

Models trained on machine learning can be used to solve classification, prediction and control problems to automate activities, add or augment capabilities and offerings, and make better decisions.

Clean energy

Clean energy solutions help achieve net greenhouse gas emissions across the entire energy value chain, from power generation to storage and distribution.

Sustainable consumption

Sustainable consumption involves transforming industrial and individual consumption through technologies such as monitoring to address environmental risks, including climate change.

Industrialized machine learning

Industrialized machine learning uses software and hardware solutions to accelerate ML development and deployment and to support performance monitoring, stability and continuous improvement.

Cloud and edge computing

Cloud and edge computing involves distributing compute workloads across remote data centers and local nodes to improve data sovereignty, autonomy, resource productivity, latency and security.

Next-generation software development

Next-generation tools aid software application development, improving processes and software quality; tools include AI-enabled development and testing.

Source: McKinsey Technology Trends Outlook 2022

Conclusion

Currently, it is essential that the industrial sector can create new revenue streams and expand new services by using IoT to monitor their industrial equipment. Information can lead to better parts and products, and provide an advantage over competing offerings, and here’s why: When purchasing a product, manufacturers often have limited data about how the equipment will perform in its intended environment, although This data is immensely valuable.

By retrofitting or manufacturing equipment with connected sensors, machine health can be monitored in the field to provide low-cost, condition-based maintenance solutions, and/or collect data points for future product improvements. New revenue streams can be created using data from IoT applications, offering a proactive approach to maintenance and monitoring of industrial equipment.

Three main advantages of industrial equipment monitoring:

1. Offer More: Proactive Maintenance Solutions

IDboxRT is a powerful monitoring platform to integrate, process and analyze available machine data. In this way, it transforms that raw data into valuable and visual information. Technicians can respond to inconsistencies in specific components instead of spending time diagnosing a problem. Cloud monitoring can help reduce maintenance expenses and overall operating costs. Additionally, it can help reduce the frequency of service calls, ultimately prolonging the life of your machines.

2. See more: Real-time data from your machines

Take advantage of real-time information from new or existing machinery. Gain a competitive advantage by monitoring conditions and tracking production from anywhere. Users can view data in dashboards, comparison charts, maps, reports, and more with IDboxRT.

3. Learn more: Product development and innovation

Make future decisions and product improvements with real data on the ground. Every year, product managers in various industries fund research studies to learn how products work in different environments, how customers prefer to use the products, how to improve.

Do you want to get more information? Contact us and our specialists will answer all your questions!

Energy control drives environmental awareness.

Environmental protection begins with the realization that our natural resources on Earth are limited. Due to economic and population growth, as well as climate change, the consumption of resources is constantly increasing. The consequences are the release of pollutants into the water, soil and air, causing permanent damage to the ecosystem. It is a fact that our natural resource consumption far exceeds the Earth’s regenerative capacity. The only way to take advantage of our resources in the long term is to use them carefully. Only in this way will future generations be able to benefit from the richness of our Earth

What is Energy Monitoring?

Energy supervision, monitoring or control means the continuous integration, processing, analysis and visualization of energy requirements. Energy monitoring is therefore the fundamental basis of an energy management system. By measuring the current of the consumers, evaluating and comparing the data, a detailed analysis of energy consumption and generation can be performed. From this data, individual and actual savings potential can be determined, both in watts and in euros. Thus, energy monitoring not only helps to reduce consumption and costs, but is also an environmentally effective measure for saving resources.

Identify potential savings with energy control.

Environmental protection begins with the identification of optimization potential. With the IDboxRT monitoring platform we monitor in particular the energy consumption of companies as well as the generation of renewable energy. With our analysis system, we create an accessible and intuitive solution for people who want to promote and support environmental protection measures.

Protecting the environment starts with everyone.

Small changes in personal energy behavior are often enough to significantly reduce energy consumption. The more people participate, the greater the energy saving effect. Become part of our IDboxRT community and make an active contribution to environmental protection.

On September 6, 7 and 8 we will be exhibiting at THE GREEN EXPO® MEXICO with Grupo Tresner. Join us and learn about our broad experience, innovative products and services for digitalizing Renewable Energy with our Technology.

Do you want to achieve total control of your operations and boost your productivity? Contact us!

Intelligent asset monitoring provides systematic and coordinated activities that can make it easier for the oil and gas sector to manage equipment. In addition, asset health becomes a top priority in the oil and gas business to ensure quality production. Otherwise, operating and maintenance costs increase, which can reduce overall productivity.

Integrating IoT in oil and gas offers smart equipment management, reducing sudden breakdown risks. Advanced sensors monitor equipment in real time and send data to a cloud platform for processing. This technology leverages the relevant information and provides actionable insights related to the health and performance of the asset.

By enabling proactive maintenance, IoT-based monitoring systems can predict potential issues before they escalate into costly repairs or downtime. This predictive maintenance approach not only extends the lifespan of equipment but also enhances safety by preventing accidents related to equipment failure. Moreover, real-time monitoring allows for immediate response to any anomalies, ensuring continuous and efficient operations.

Thus, IoT asset monitoring is crucial for the oil and gas industry as it improves machine efficiency and enables better decision-making. Real-time data and analytics help companies optimize operations, reduce waste, and boost productivity.

Oil and gas companies are digitally transforming by implementing smart asset monitoring to mitigate such challenges and create:

• Operational flexibility: Enhanced monitoring capabilities allow for swift adjustments to operational strategies based on real-time data.
• Timely delivery: Improved equipment reliability ensures that production schedules are met without unexpected delays.
• Brand value: Consistent quality and reliability enhance the company’s reputation and competitive edge in the market.
• Economic efficiency: Reduced maintenance costs and improved operational efficiency translate into significant cost savings.

In summary, the adoption of intelligent asset monitoring through IoT technology is revolutionizing the oil and gas industry. It ensures not only the longevity and efficiency of equipment but also supports a safer, more reliable, and economically viable production process. As the industry continues to embrace digital transformation, these technologies will become integral to maintaining competitive advantage and operational excellence.

The integration of renewable energy and storage generates additional monitoring and control needs, not only to ensure optimal performance, but also for the earliest possible return on investment.

Monitoring is necessary to understand energy production and use, detect problems early and take appropriate action.

To understand how electrical energy is being used and how it can be optimized, owners must:

• Track how photovoltaic (PV) energy produced is consumed by loads, stored, or injected into the grid
• Track and analyze photovoltaic energy production trends along with load consumption
• Calculate the economic benefits associated with reducing energy consumption from the grid

Asset management functions should also be provided by a PV system monitoring system. This should include evaluating the performance of the PV system, detecting offsets or faults, and immediate notification of faults. In addition, since PV inverters can affect the power quality of an electrical installation, it is recommended to measure and monitor power quality disturbances, especially harmonics and imbalances.

When integrating local sources, such as a photovoltaic system, into a building’s electrical installation, control functions are often required. These functions mainly depend on the local sources available, the contract with the local energy supplier and the type of installation: grid-connected, microgrid or off-grid.For example, for an installation with grid-connected PV production, the necessary control functions may include:

• Limiting photovoltaic power generation so that energy is not pumped into the grid
• Control of the power factor at the point of connection to the grid to avoid penalties
• Shifting the load over the period of PV production to maximize self-consumption
• Participating in demand response, especially if storage units or generators are also part of the plant

Advanced cloud-based analytics optimize the use of local power sources, resulting in additional savings.
Considering additional criteria such as changes in electricity rates, weather forecasts and expected consumption, advanced analytics provide the optimal system configuration. The setpoint for each local source is then transmitted to the local control system.

To learn more about PV plant monitoring recommendations, contact us at [email protected].