ENERGY SOLUTIONS
SOLAR MONITORING SYSTEM
Solar monitoring system is the best way to ensure the performance of your solar plant. Solar Monitoring System enables a remote monitoring system of solar. We Install the solar plant by investing a huge amount of money to the solar installer. The solar installer shows us very attractive pay back on paper. But when we actually see the benefit after one year the things does not match as told by the solar installer. The most important factor is the monitoring of the power generation. Solar Monitoring System – Energy Log ensure that your solar plant always perform well :
Energy Log – Solar Monitoring System is Energy Log is a combination of Hardware’s and Software which provide the complete solution of Solar Plant Performance Monitoring. Solar Monitoring System it comes with following elements
Datalogger – Energy Log Modbus Beta
Sensors with RS 485 outputs ( Solar radiation meter, Ambient temperature, Module temperature etc)
Software – Energy Log
ENERGY MONITORING SYSTEM
Energy monitoring system is the most significant demands to decrease the energy expenditure from the businesses. Smart energy monitoring system technique tracks the usage of energy of different regions of the plant throughout round-the-clock.
The energy Monitoring System is accomplished through the use of Energy meters, along with data loggers. Multiple energy meters is closely linked to an RS485 network. Data logger is utilized to get these data from Energy meters via RS485 protocol.
Finally, these electrical energy consumption associated data is processed and reflected within datalogger then data logger transfer this data to the LAN or Cloud server. Authorised person can access the data. The data played an essential part to comprehend the behaviour of energy consumption and also to rectify the undesirable energy use in the business
CHILL EFFICIENCY MONITOR
Get multiple user access based on user roles and access: Like Energy Manager, Maintenance staff, Financial Officer, Executive Officer. Define your control panel or Dashboard based on project main indicators according to your vision, in a easy-to-configure way
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Quickly understand complex usage data.
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create hundreds of customizable views.
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Aggregate data from thousands of locations and filter them by tag or zone.
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Quickly share dashboards between users and reduce configuration time.
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Analyze your data regardless of the project complexity, from aggregated overall consumption to in-deep sub-metering.
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one minute, five Mins, quarter-hourly, half-hourly, hourly, daily, weekly and monthly consumptions.
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All different sources: Electricity, gas, water, liquid fuels, compressed air, etc.
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Hierarchy and tags: Geographical and logical clustering.
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Real time graphs for the cost by adding the tariff plan of the utility.
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Certify achieved energy savings according by comparing your current consumption vs your baseline.
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Certify and validate savings in a objective way.
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Monitor your Energy Efficiency Measure portfolio in real-time, quantifying achieved savings.
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Easily detect when your consumption exceeds what was expected.
Energy conservation by Dissolve gases optimization removal from HVAC system
HVAC systems are subjected to more misuse than any other type of equipment in South Africa’s business sector. Poor maintenance, lack of knowledge on how to use them efficiently, overuse, and the large number of old and inefficient systems at work in the sector make HVACs a significant contributor to the country’s demand for energy [1].
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HVAC systems account for more than 50% of a facility’s energy usage [1]. After the cooling load has been reduced and the HVAC system has been optimised in terms of airflow, environmental controls and sensors, there still remain major areas of possible energy savings in the major components that form the basis of the system.
Most HVAC systems are designed to handle the maximum cooling or heating load required by the building. This maximum only occurs for a short period in the year and, for most of the time, the system is faced with a load below the maximum, and operates below full capacity. Operating below capacity generally means inefficient operation, and energy savings can be achieved by the use of systems that optimise operation under conditions below full capacity.
The HVAC system consists of the following components:
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Central chilled water plant.
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Chiller water cooling system.
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Chilled water circulation system.
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Air cooling (handling) and circulation system.
In addition to these units, there are numerous pumps and fans, each of which contributes to the energy demand, and each of which can be configured to run energy-efficiently.