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Category "News EN"

27May

Advantages of PowerSense Electricity Measuring Submeter Based on LoRaWAN

by Povilas
News EN

Advantages of PowerSense Electricity Measuring Submeter Based on LoRaWAN

Introducing PowerSense, the cutting-edge electricity measuring submeter designed to provide precise and efficient energy monitoring solutions for businesses and homes. Leveraging the advanced capabilities of LoRaWAN technology, PowerSense stands out as a superior choice for energy management. Here are the key advantages of using PowerSense:

Long-Range Communication

PowerSense utilizes LoRaWAN, which is renowned for its long-range communication capabilities. This ensures that energy consumption data can be transmitted over several kilometers without the need for repeaters, making it ideal for both urban and rural deployments.

Low Power Consumption

One of the standout features of LoRaWAN technology is its low power consumption. PowerSense benefits from this, offering extended battery life and reducing maintenance costs. This makes it a sustainable and cost-effective solution for long-term energy monitoring.

High Accuracy and Reliability

PowerSense delivers high accuracy in electricity measurement, ensuring reliable data collection. Accurate monitoring helps in identifying energy wastage, optimizing usage, and ultimately reducing electricity bills.

Easy Installation and Scalability

PowerSense is designed for easy installation, allowing users to quickly set up and start monitoring energy consumption. Its scalable architecture means it can be easily integrated into existing systems or expanded to cover additional circuits or devices as needed.

Real-Time Data and Analytics

With PowerSense, users gain access to real-time data and analytics. This enables proactive energy management, helping users to make informed decisions based on current consumption patterns and trends. The data can be accessed remotely, providing flexibility and convenience.

Enhanced Security

Security is a top priority for PowerSense. LoRaWAN technology includes robust encryption protocols, ensuring that data transmitted between the submeter and the central system is secure from unauthorized access.

Cost-Effective Solution

PowerSense offers a cost-effective solution for energy monitoring. By leveraging the efficiency of LoRaWAN, it reduces the need for complex wiring and infrastructure, minimizing installation and operational costs.

Integration with Smart Grid Systems

PowerSense seamlessly integrates with smart grid systems, contributing to smarter energy management and distribution. This integration supports demand response strategies, grid stability, and enhances overall energy efficiency.

Environmental Impact

Using PowerSense contributes to a greener planet. By providing detailed insights into energy usage, it empowers users to reduce their carbon footprint and promote sustainable energy practices.

Conclusion

PowerSense, based on LoRaWAN technology, is a powerful tool for precise and efficient electricity measurement. Its long-range communication, low power consumption, high accuracy, and ease of installation make it an ideal choice for modern energy management. Whether for residential, commercial, or industrial applications, PowerSense provides a reliable and cost-effective solution to monitor and optimize electricity usage. Embrace the future of energy management with PowerSense and take a significant step towards a more sustainable and efficient energy ecosystem.

By focusing on these key advantages, PowerSense ensures that your energy monitoring needs are met with cutting-edge technology and reliable performance. Enhance your energy management strategy today with PowerSense, the smart choice for electricity measurement.

15May

Vape detector Vapeless is advancing in the transportation and schools sector

by Povilas
News EN

The e-vaping is significant problem in the schools, also is not allowed in the public, sear transport, hotels rooms. Advanced sensor can enable significant reduction of the e-vaping and mitigate these issues.

VAPELESS detector is significantly advanced e-vape gas detection sensor from Nano sensorics which uses advanced pattern recognition technology enabling detection of extremely high and unlimited number of the e-vaping mixtures.
⭐⭐⭐⭐⭐Advantages of the VAPELESS :
✅High and effective detection distance including low intensity e-vaping;
✅LoRaWAN connectivity, 5G
✅Integrated advanced autocalibration;
Cyber secure with robust encryption methods;
✅Reinforced mechanical enclosure;
✅Dual powered system and power loss messaging;
✅Easy deployment (plug and play);
✅Lifetime more than 10 years, according to the accelerated aging tests;
✅Practice shows that Vapeles enabled to reduce vaping activities by 90%;
✅Developed and made, tested, supported in the EU, Lithuania.

 

14May

Vaping prevention with Vapeless detectors

by Povilas
News EN

Vaping prevention in schools and public spaces has become a significant concern due to the rising popularity of e-cigarettes, especially among teenagers. A practical approach to addressing this issue is through the installation of vape detector VAPELESS. These devices are designed to sense the chemical components found in e-cigarette vapors, such as propylene glycol and glycerin, and can be installed in areas where vaping is prohibited, such as school bathrooms and locker rooms.

Functionality and Benefits: Vape detector VAPELESSS work by analyzing the air quality for specific vapor signatures associated with e-cigarettes. Upon detecting e-vaping activity, VAPELESS trigger alarms, send instant notifications to authorities, or even integrate with building management systems (BMS) This immediate response helps deter students from vaping in prohibited areas and supports enforcement of school policies and safety.

Education and Awareness: Alongside technology like vape detector VAPELESS, education plays a crucial role in preventing vaping. Schools can use the presence of these devices as a starting point for broader discussions about the health risks associated with vaping, including potential lung damage and addiction issues. Educational programs should aim to inform students about the harmful effects of nicotine and the deceptive marketing practices used by vape companies to target younger audiences.

Community Involvement: Preventing vaping requires a community-wide effort. Parents, educators, and local health officials should collaborate to create a comprehensive approach that includes prevention, education, and enforcement. Community forums and workshops can be effective in spreading awareness and educating both parents and students about the dangers of vaping.

In conclusion, vape detectors represent a proactive technological solution to help enforce no-vaping policies effectively. However, their success largely depends on integrating these devices within a broader framework of education, ethical consideration, and community involvement to ensure a healthy, safe environment for young individuals.

5May

Predictive and preventive maintenance in action

by Povilas
News EN

🎯 Our partners deployed our 400A Ampsense sensors for electrical motor monitoring in their customers factory in Poland!

🚀 We are glad not only by having strong partner in Poland for our products, but also possibility to give our end customers a means of predictive and preventive maintenance! 👍

🌏 With Ampsense provided data, clients can make data driven decisions and achieve huge savings!

If you want to be part of our success, let’s talk! 📞

 

16Mar

Nano sensorics electrical submeter impacts energy saving, reduction of the CO2 emissions

by Povilas
News EN

 Nano sensorics launched electrical submeter PoweSense based on LoRaWAN and M-Bus interface.

The benefits are as follows:

1. Energy Management and Efficiency

  • Detailed Consumption Data: Submeters provide granular data on energy consumption at different levels (e.g., individual apartments, floors, departments). This detailed information helps identify energy use patterns and inefficiencies.
  • Targeted Energy Savings: With precise data, building managers can implement targeted energy-saving measures. For instance, they can adjust HVAC settings, lighting, and equipment usage based on actual consumption patterns.

2. Cost Savings

  • Fair Billing: Submeters allow for accurate billing based on actual usage rather than estimates. This can lead to significant cost savings, especially in multi-tenant buildings, as tenants are billed for their specific energy consumption.
  • Incentivizing Energy Conservation: When tenants or departments are aware of their actual energy consumption and costs, they are more likely to adopt energy-saving practices, leading to overall cost reductions.

3. Improved Accountability and Transparency

  • Tenant Accountability: Submetering holds tenants accountable for their energy use, encouraging more responsible behavior. This can be particularly important in residential buildings, commercial offices, and industrial settings.
  • Transparency: Providing clear, transparent data on energy usage can improve tenant satisfaction and trust. It can also facilitate better communication between building managers and occupants regarding energy policies and initiatives.

4. Sustainability and Environmental Impact

  • Reduced Carbon Footprint: By enabling more efficient energy use, submeters contribute to reducing the overall carbon footprint of a building. This aligns with sustainability goals and regulatory requirements.
  • Supporting Renewable Energy Integration: Submeters can help manage and optimize the use of renewable energy sources by providing detailed consumption data that can be used to balance loads and reduce reliance on non-renewable sources.

5. Operational Benefits

  • Maintenance and Load Management: Submeters can help identify when and where maintenance is needed by highlighting unusual consumption patterns. They can also aid in load management by providing data on peak usage times.
  • Future Planning: The data collected through submeters can inform future planning and upgrades, such as the installation of more energy-efficient systems or the integration of new technologies.

6. Case Studies and Real-World Examples

  • Commercial Buildings: In office buildings, submeters have been shown to reduce energy costs by identifying inefficient lighting and HVAC systems, leading to targeted upgrades.
  • Residential Complexes: In apartment buildings, submeters have helped reduce overall energy consumption by encouraging tenants to adopt energy-saving behaviors.
  • Industrial Facilities: In manufacturing plants, submeters have provided critical data for optimizing production processes and reducing energy waste.
1Mar

Nano sensorics participate in the Leap24 exibition, Saudi Arabia

by Povilas
News EN

Nano sensorics participate in the Leap24 exhibition Riyadh Exhibition and Convention Center, Malham, Saudi Arabia

Meet with us to enable the transformation of  your industrial, municipal asset!

 

Convert your asset into a secure, sustainable with the cutting-edge smart LoraWAN IoT Sensors!

Our sensors enables significant positive impact to the health and energy saving, security:

✅ PowerSense-L is a electricity submeter measurement for the electricity consumption measurement, up to 1600 A;
✅ Vapeless- complex vape gas detection sensor and many more;
✅ Ampsense-measurement of electrical consumption anomalies, to 1000 A;
✅ Carbonless- Co2 and t+h sensor;
✅ Vocless – VOC harmful particles t+h sensor;
✅ Temphu – t+h sensor;
✅ BRIDGE AI.- complex infrastructure bridge health measurement sensor.

Leap Logo

 

 

14Jan

Nano sensorics develops an advanced, high-precision vaping gas monitoring sensor

by Povilas
News EN

The aim of the project:

The purpose of the project (published publicly on the EU investment website esinvesticijos.lt)

Development, testing and development of a high-precision sensor for low intensity monitoring of e-cigarette emissions.

 

Project description:

The project “Creation, testing and development of a sensor for monitoring gas emitted by electronic cigarettes” will be carried out by UAB “Nano sensors” (legal entity code: 305682967, address: Elektrėnų st. 7, LT-51193 Kaunas). UAB “Nano sensorics” conducts scientific research and experimental development in the field of smart Internet of Things (IoT) sensors. The company’s products directly influence the efficient use of energy resources and the reduction of carbon dioxide emissions. Sustainable construction, industrial sensors based on promising interfaces such as LoRaWAN, 5G are proposed.

The effects of e-cigarettes on others are questionable and controversial. Due to their possible impact in society, many questions arise regarding the change in the attitude of young people towards smoking and the consequences of passive vaping. A very significant factor in the formation of vaping habits is the possibility to vape cigarettes in places where is prohibited, thus enabling subjects to vape without restrictions.

E- vaping restrictions are enacted to reduce the prevalence of smoking, and the unlimited use of e-cigarettes returns the public health gains achieved up to that point to previous levels.

This could reduce successful quit attempts, increase tobacco use among youth and adults, and encourage quitters to relapse.

With the project, we aim to create a particularly accurate sensor for monitoring the gas emitted by electronic cigarettes at low vapor intensity. This sensor will use advanced algorithms to detect extremely high variety of the e-cigarette smoke consistencies and correlate the detected e-cigarette gas consistency correlations to determine the e-cigarette smoke detection intensity of a wide intensity range.

 

The main technical parameters of the advanced sensor:

Measurement parameters: vape index, CO, CO2, VOC; aggression level index;

Measuring diameter up to: 3.5-4 m;

Integrated advanced calculation algorithms (intellectual algorithms -AI);

Communication interfaces: 5G, LoRaWAN EU, US, AU, option NB-IoT;

Power supply: l5-12VDC, AA batteries to ensure communication interface operation.

 

 

Project is implemented until: 2024.12.31

Project financed by:

 2022–2030 METŲ PLĖTROS PROGRAMOS VALDYTOJOS LIETUVOS RESPUBLIKOS SUSISIEKIMO MINISTERIJOS SUSISIEKIMO PLĖTROS PROGRAMOS PAŽANGOS PRIEMONĖS  NR. 10-001-05-04-01 „DIDINTI SUSISIEKIMO SISTEMOS KURIAMĄ VERTĘ IR INFRASTRUKTŪROS PANAUDOJIMO EFEKTYVUMĄ“ VEIKLĄ „SKAITMENINIŲ TECHNOLOGINIŲ SPRENDIMŲ, KURIEMS ĮGYVENDINTI BŪTINAS 5G RYŠYS, KŪRIMAS, TESTAVIMAS IR VYSTYMAS“

Projekto kodas: Projekto kodas 08-006-K-0004