How to Save Energy with Clauger
Clauger is a company specializing in energy performance. Over the past 10 years, it has developed a digital ecosystem that digitizes its entire expertise. Thanks to this cutting-edge technology, Clauger is able to help you significantly save energy.
One of Clauger’s flagship products is the MyClaugerDetect module, which is a patented product. This module uses the digital data collected by Clauger’s ecosystem to detect sources of energy waste in your company. By identifying these sources, you can take steps to reduce them and thus achieve significant savings.
How does MyClaugerDetect work?
MyClaugerDetect uses sophisticated sensors and algorithms to collect and analyze your company’s energy data. This data is then transmitted to an online dashboard, where you can easily view and interpret it.
The dashboard allows you to see your company’s energy consumption in real-time, as well as areas where savings can be made. You can also set consumption reduction goals and track your progress over time.
An example of using MyClaugerDetect
The Benefits of MyClaugerDetect
Using MyClaugerDetect, you can achieve significant energy savings for your company. But that’s not the only advantage of this innovative product:
How to Obtain MyClaugerDetect?
If you want to save energy and improve the energy performance of your company, you can contact Clauger to obtain MyClaugerDetect. Their team of experts will guide you through the installation and use of this revolutionary product.
In summary, thanks to its digital ecosystem and its patented product MyClaugerDetect, Clauger can help you save energy and improve the energy performance of your company. Do not hesitate to contact them to learn more and start saving today!
How to Reach the Ultimate Level of the Smart Collaborative Factory
The Smart Collaborative Factory is a CLAUGER concept that aims to optimize the performance of an industrial site by promoting collaboration among all involved stakeholders. This allows achieving an optimal level of productivity and efficiency.
To reach this ultimate level, it is important to follow a well-defined path. This path is the same for all industrial sites, regardless of their size and field of activity.
However, the time to reach the optimal can vary depending on several factors. First, the active participation of all stakeholders is essential. This means that each team member must be involved and motivated to contribute to the continuous improvement of the factory.
Next, Clauger’s expertise in the field of the Smart Collaborative Factory is a major asset. Thanks to our experience and know-how, we can support companies in their optimization efforts and help them reach the ultimate level more quickly.
Finally, the intensity of the implementation of the various actions and solutions proposed by Clauger also plays an important role in the time to reach the optimal. The stronger the commitment and involvement, the quicker and more significant the results will be.
In summary, to reach the ultimate level of the Smart Collaborative Factory, it is necessary to follow a well-defined path, benefit from Clauger’s expertise, and fully commit to the optimization process. With these elements in place, your industrial site can achieve optimal performance and become a Smart Collaborative Factory.
The 9 Steps to Achieve the Smart Collaborative Factory
Basic Energy Setting: The first step is to ensure a basic energy setting to guarantee that your factory operates optimally in terms of energy consumption.
Pilot Assistance and Operator Training: It’s crucial to implement pilot assistance and training for operators, enabling them to better understand the factory’s operations and make informed decisions.
Integrating Operator Feedback into the Algorithm: The third step involves incorporating the operators’ insights into the algorithm, enhancing its precision and efficiency.
Automatic Anomaly Detection: Once these steps are completed, the algorithm can begin automatic anomaly detection, signaling potential issues in the factory’s operations to the operators.
Digital Twin Creation: Creating a digital twin of the process based on historical data is the fifth step, allowing for the modeling of the factory’s theoretical behavior and monitoring gains or malfunctions.
Incorporating Maintenance and Troubleshooting Data: The sixth step is to integrate qualitative data from maintenance technicians, which will be used to improve the factory’s operations through MyClaugerDetect’s machine learning.
Data-Driven Operational Influence: These data will then be used to influence the factory’s operations, meaning the algorithm will be able to make real-time decisions to optimize production.
Communicating the Utility of MyClaugerDetect: The eighth step is to communicate the utility of MyClaugerDetect and thermal energy production, raising awareness among stakeholders and showcasing the benefits of this technology.
Inter-Process Digital Twin Communication: Finally, the ninth and last step is to establish communication between the digital twins of different processes in the industrial site’s production chain, ensuring better coordination and overall optimization of the factory.
Some Anomaly Detection Uses
Anomaly detection is an essential tool for ensuring the proper functioning and performance of your equipment. With our advanced sensors, we can detect a variety of potential issues, from refrigerant fluid leaks to mechanical breakdowns and operational drifts in hydraulic pumps.
One of the main benefits of anomaly detection is the ability to detect refrigerant fluid leaks. These leaks can be costly and dangerous, but with our sensors, we can quickly and efficiently detect them, allowing you to take preventive measures to avoid further damage and additional costs.
In addition to detecting refrigerant fluid leaks, our sensors can also anticipate mechanical breakdowns. By combining vibration sensor data with refrigeration factors such as pressure and temperature, we can identify early signs of imminent mechanical failure, allowing you to take corrective action before a breakdown occurs, saving time and money.
Lastly, our sensors can also help optimize the energy performance of your hydraulic pumps. By detecting operational drifts in pumps, we can suggest the best combinations to ensure an optimal starting temperature, helping you save energy and extend the lifespan of your equipment.
In summary, anomaly detection is a valuable tool for ensuring the proper functioning and performance of your equipment. With our advanced sensors, we can detect refrigerant fluid leaks, anticipate mechanical breakdowns, and optimize energy performance.