DETAILED MEASUREMENTS OF SELECTED INSTALLATIONS

Precise energy measurements of installations are a key stage in evaluating the effectiveness of a company’s infrastructure. Through detailed assessments of air and water flows, thermographic analyses, and measurements of energy carrier consumption, we gain accurate information on actual energy demand and potential savings. This process eliminates energy waste and enhances energy efficiency by aligning modernization efforts precisely with the company’s needs.

1. Measurement of Air and Water Flows

We perform precise measurements of air and water flows in HVAC systems, heating networks, cooling networks, and other installations impacting energy use. These studies enable:

• Optimization of Fan and Pump Operation – By utilizing precise data, we can adjust equipment parameters to minimize energy losses caused by excessive flow or inefficient distribution of thermal or cooling energy.
• Detection of Leaks – Flow measurement quickly identifies any potential leaks that lead to energy loss. Eliminating these losses helps reduce operational costs and improve overall system efficiency.

2. Thermography – Precise Analysis of Heat Loss

Using thermal imaging cameras, we perform thermographic studies of building infrastructure and equipment. Thermal imaging allows us to identify areas with increased heat loss, enabling:

• Assessment of Thermal Insulation – Thermographic analysis reveals areas of significant heat loss due to insufficient or damaged insulation, allowing us to recommend specific actions to improve insulation and reduce heating demand.
• Identification of Overheated Components – Thermographic examinations of equipment help identify areas of dangerous overheating, potentially leading to energy losses or increased failure risk. This allows for timely maintenance or modernization to improve performance.

3. Electricity and Heat Energy Consumption Measurements

We conduct detailed measurements of electricity and heat consumption at both the individual device and system levels. Based on this, we identify the most energy-intensive components of the infrastructure and determine actual energy needs, which enables:

• Adjustment of Equipment Operating Parameters – Analysis allows us to align equipment parameters with real energy use, reducing waste and lowering operational costs.
• Optimization of Operating Cycles – By analyzing real-time energy use, we can propose optimized operating cycles for equipment, leading to better utilization of energy resources and avoidance of idle operation.

4. Measurement of Energy Carrier Flows

Besides air and water, we also measure flows of energy carriers like steam, gas, and other media used in the company. Examining their use enables:

• Efficient Management of Energy Carriers – We can precisely determine the consumption of each energy carrier, identifying areas where optimization or substitution with more efficient or economical carriers is possible.
• Reduction of Transmission Losses – Analysis of energy carrier flows reveals potential transmission losses from leaks or poor quality in pipes and valves, allowing us to recommend specific actions to prevent further losses.

5. Analysis of Thermal and Humidity Parameters

In industries with specific thermal and humidity requirements, such as food or pharmaceutical sectors, we monitor thermal and humidity parameters to:

• Reduce Energy Use for Stable Conditions – Measuring and analyzing these parameters enables optimized settings in HVAC systems and cooling installations.
• Improve Production Quality – Maintaining appropriate thermal and humidity conditions improves production quality, which can reduce material losses and energy use.

6. Real-Time Energy Consumption Monitoring

We offer implementation of energy monitoring systems that enable ongoing tracking and analysis of equipment and infrastructure performance parameters, allowing the company to:

• Quickly Respond to Energy Consumption Anomalies – In cases of sudden energy spikes, the system immediately alerts, enabling swift intervention to minimize losses.
• Better Energy Demand Management – Analyzing monitoring data allows for adjusting production and equipment operation to the changing energy demand, thereby reducing costs.

7. Reporting Results and Recommendations

After completing measurements, we prepare a detailed report presenting:

• Measurement Results in Key Areas (air and water flows, thermography, energy carrier consumption),
• Analysis of Potential Savings and Possible Optimizations,
• Recommendations for Modernization and Improvements to Achieve Energy and Financial Savings.

 

Benefits of Conducting Precise Energy Measurements

Through accurate energy measurements, companies gain a complete picture of energy use across various operational areas, enabling:

• Significant Reduction in Energy Costs by eliminating waste,
• Improved Performance and Reliability of Equipment through precise parameter adjustments,
• Enhanced Working Conditions and Better Production Quality by controlling thermal and humidity parameters,
• Reduction of Greenhouse Gas Emissions through efficient energy carrier management.

Precise energy measurements are the foundation of conscious and responsible energy management within an enterprise. With our service, a company can not only achieve significant financial savings but also enhance its energy efficiency, aligning with modern ecological standards and sustainable development requirements.