Sanitary water meter (Ultrasonic water meter) with ultrasonic measurement technology produced based on OIML-R45 standard, with memory to save consumption for 12 months and save possible errors.
Nowadays, due to the many problems that different countries are involved in the supply and distribution of sanitary drinking water, on the one hand, and the advancement of technology and the supply of ultrasonic water meters with very significant facilities, on the other hand, the ground has been prepared for the supply of this equipment.
These meters are produced and supplied in two models with and without solenoid valves
Large Meter (ultrasonic)
Ultrasonic water meters from size 2 to 12 inches are considered high-size meters.
The body of these meters is made of cast iron or stainless steel and its connections are flange type
Indications
These meters are designed and produced in the following models:
Sanitary cold water for flow measurement and water consumption
Sanitary hot water to measure flow rate and sanitary hot water consumption and sanitary hot water energy
which are generally used to calculate or separate the water bill of building units according to the amount of consumption of each unit or industrial and urban cases.
Ultrasonic Heating and Cooling Meter (Heat Meter/BTU Meter) is built with ultrasonic measurement technology and complies with OIML-R75 and EN1434 standards. It features a memory for storing consumption data for up to 12 months and logging potential errors.
Applications of the Ultrasonic Heat Meter
Measuring heating and cooling energy consumption in individual units of a building equipped with fan coils, radiators, underfloor heating systems, etc.
Measuring heating and cooling energy consumption in air handling units (AHUs), unit heaters, and similar equipment.
Measuring heating and cooling energy consumption in various heat exchangers, such as swimming pool and jacuzzi heat exchangers.
By using the measured data and transmitting the consumption to a central server, it is possible to:
Segregate Boiler Room Costs: Allocate gas bills.
Segregate Chiller Costs: Allocate electricity bills for the building’s shared cooling systems.
Electricity meters are majorly deployed for segregating energy consumption in a building. In the Sub Metering system, these meters find their application in two major scenarios:
a) To separate the electricity usage of individual units within a building where obtaining separate meters from the power utility company is not feasible.
b) The electricity consumption of shared equipment like chillers, water booster pumps, boiler rooms, etc., should be identified from the communal electricity use of the building.
Power Meter
Other advantages of these meters include the measurement of energy consumption, voltage, as well as current. These capabilities give an entirely new dimension for electrical equipment management.
Moreover, such smart meters are fitted with an integrated disconnect relay in order to enable remote switching on or off of electricity supply if necessary.
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The Ultrasonic Water Meter is a smart device designed with ultrasonic measurement technology, compliant with the OIML-R45 standard. It features a memory capable of storing consumption data for up to 12 months and recording potential errors.
Advantages of the LoraWan Ultrasonic Water Meter
In recent years, many countries have faced significant challenges in the supply and distribution of clean drinking water. At the same time, advances in technology and the introduction of ultrasonic water meters with remarkable features have provided a reliable solution to address these issues.
By installing these meters at building entry points in urban areas, users benefit from more accurate measurements compared to mechanical meters. Additionally, they enable remote data transmission and reception without requiring an external power supply.
Conventional Central Heating Engine Rooms manage temperature control through local thermostats fitted on boilers and pumps. These maintain the water circulating in radiators and fan coils at a constant temperature unless an operator adjusts the settings. However, the heating demands of a building constantly change due to factors like outdoor temperature variations or internal building conditions. Modern buildings increasingly adopt Central Heating Controllers to address these dynamic requirements, ensuring greater efficiency and comfort.
