Heat Energy Meter

 

The E3W Thermal energy meter epitomizes the embodiment of the ultrasonic time difference method measurement principle, artfully synthesized with Gentos' advanced ultrasonic flow algorithm technology, facilitating the attainment of unparalleled precision in the measurement of fluid flow and the meticulous quantification of heat(cold) volume within the pipeline. Notably, this product boasts a seamless simplicity in both installation and utilization, rendering it effortlessly accessible to all.

 

Heat energy meter, esteemed for their virtuosic versatility, traverse the realms of heat balance regulation with a resplendent prowess. The orchestration of heat balance encompasses the harmonious adjustment of thermal inputs and outputs, facilitating the realization of a steadfast equilibrium within a given system. At the hallowed juncture, an ultrasonic BTU meter zealously takes center stage, adroitly wielding its instrumental might to astutely gauge the heat vitality of a fluid. By ingeniously harnessing the power of ultrasonic technology to ascertain the fluid's ebullient flow rate and ambient temperature, and subsequently employing ingenious calculations, this meter unveils the innate essence of the fluid's heat.

 

In the transcendent realm of heat balance regulation, the illustrious E3W ultrasonic thermal energy meter takes on a multifaceted role, wielding its authority to dutifully monitor and vigilantly govern the ebbs and flows of thermal energy. With dutiful precision, it incessantly measures the fluid's velocity and temperature, obediently bequeathing the fount of precise heat calculations. This invaluable data then becomes a beacon of enlightenment, guiding the harmonization of thermal inputs, enabling the sagacious control of power output from heating or cooling systems, thus ushering forth the coveted state of thermal equilibrium with unerring grace.

 

Behold, there is more to the E3W's grandiose repertoire. It possesses a latent ability to unveil hidden truths lurking within the labyrinthine corridors of energy, ferreting out inefficiencies and insidious leaks within systems, like a virtuoso on a perpetually vigilant quest. Embracing its duty to discern and rectify, it conducts a symphony of assessment, adroitly scrutinizing the delicate interplay of heat within the fluid. Therein lies its virtuous gift - the apprehension of energy losses and leaks, nimbly exposing vulnerabilities and anomalies, affording a leeway for timely intervention and resolute rectification. This artistic endeavor fortifies the system's esprit de corps, transmuting the very essence of thermal balance, unveiling a newfound efficiency through meticulous stewardship in energy utilization.

 

In summation, the applications of superstatic heat meter, particularly exemplified by the extraordinary E3W, dance upon the tapestry of heat balance regulation. Their weighty presence imbues these delicate spheres of endeavor with the power to monitor and regulate the delicate flux of thermal energy, while concurrently unraveling hidden vulnerabilities and energy losses within the system. Thus, this melodic marriage of advanced technology and profound purpose tenderly shepherds a realm of equilibrium, ushering forth heightened energy efficiency and harmonious thermal balance.

 

 

Appearance

 

Feature

• Easy installation, No pipe rework or damage
• No adjustment, Clip on to measure
• LCD colorful display screen
• 360° rotation adjustable display screen
• Mobile terminal app to view flow data

 

Technical Parameters

Performance Specifications
Flow velocity	0.03~5.0 m/s
Pipe Size	DN20~DN80
Measured medium	water
Pipe Material	Carbon steel, Stainless Steel, Copper, PVC (According to the user's model selection, the model has been determined at the time of delivery.)
Function Index
Input interface	2*PT1000 Clamp-on temperature sensor 0~100℃(32～212℉)
Communication Interface	RS485(standard); Support FUJI Protocol and MODBUS Protocol
Power supply	10～36VDC/500mA
Keyboard	4 touch keys
Display screen	1.44 " LCD colorful screen, resolution 128 * 128
Temperature range	Transmitter installation ambient temperature: 14 °F to 122 °F ( –10℃~50℃ ) Transducer measures medium temperature: 32 °F to 140 °F ( 0℃ ~ 60℃ ).
Humidity	Relative humidity 0~99%, No condensation
IP Rating	IP54
Physical Characteristics
Transmitter	Integrated
Transducer	Clamp-on
Cable	φ5 six core cable, standard length: 2m

 

 

 

Thermal energy meter possess a multitude of applications within photovoltaic systems, embracing a myriad of aspects with their inherent versatility and adaptability:

 

• Monitoring and control of cooling water circulation: In operation, the solar panels of photovoltaic systems invariably generate heat, necessitating cooling systems to temper this thermal influx. Ultrasonic flow meters, through their proficient monitoring capabilities, ensure that an ample supply of cooling water courses through the panels, serving to uphold their optimal working temperature.
• Vigilant supervision of heat carrier flow: Certain photovoltaic systems employ heat carriers, such as thermal oil or steam, to effectually store and channel the solar energy harnessed. Embracing the power of ultrasonic flow meters, one can accurately track and gauge the flow of these heat carriers, guaranteeing a seamless and efficient circulation, facilitating the optimal transfer of thermal energy.
• Encompassing water supply and wastewater treatment: The operation and functionality of photovoltaic systems invariably rely on an abundant and steady supply of water, serving essential roles in both cleansing and cooling procedures. By adroitly integrating ultrasonic flow meters, one can diligently survey and regulate the flow of water within the systems, thereby ensuring a steadfast and reliable water provision for the requisite tasks and wastewater treatment processes.
• Meticulous monitoring of particle pollution: A byproduct of converting natural light into its electrical counterpart is that surface accumulation of dust particles, dirt, or other undesirable impurities can impair the optimal functioning of photovoltaic cells. Effortlessly, ultrasonic flow meters enable vigilant and precise detection and quantification of particle content within the fluid medium being conveyed, efficaciously facilitating timely identification of pollution-related issues and subsequent implementation of the requisite cleaning and maintenance rituals.

 

Ultrasonic flow meters' inherent attributes of non-intrusive measurement techniques coupled with their unparalleled precision and dependability bestow upon them an eminently suitable disposition for the multitude of fluidic environments and prevailing conditions encountered. In the grand tapestry of photovoltaic systems, ultrasonic flow meters unveil a trove of dependable and accurate flow data, promoting the harmonious monitoring and optimization of these systems, all in an unflagging pursuit of heightened energy utilization efficiency.

 

 

Throughout Gentos's journey, we has consistently strived to enhance the functionality, quality, and performance of their product line, constantly pushing the boundaries of the industry. One of the key factors behind their success is their collaborative approach with valued customers. Gentos actively seeks and values the input of their customers, incorporating their invaluable feedback into the design and development of new products. This collaborative model not only fosters a sense of appreciation but also allows Gentos to stand out and establish a unique position in an industry that demands the perfect combination of security and performance.

 

Gentos' dedication to excellence, our collaborative approach with customers, and our commitment to innovation and sustainability have cemented our position as a leader in the industry.

 

As Gentos continue to evolve and adapt to the changing needs of their customers, we remains focused on providing comprehensive solutions that optimize fluid resource utilization, preserve energy, and contribute to a sustainable future.

 

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Deliver, Shipping, and Serving

 

 

To further enhance the customer experience, Gentos offers a wide range of transportation and express delivery options. Whether customers prefer traditional shipping methods or require expedited delivery, Gentos has a solution to meet their diverse needs. From reliable courier services to specialized transportation providers, Gentos has established partnerships with trusted logistics companies to ensure that products are delivered quickly and securely.

 

 

Q: What is an ultrasonic heat meter?

A: An ultrasonic heat meter, also known as a heat flow meter or thermal energy meter, is a device used to measure the flow rate and heat energy consumption in a heating or cooling system. It operates based on the principle of ultrasonic technology, utilizing ultrasonic waves to accurately measure the volume flow rate of the fluid passing through the meter. In addition to flow rate, it also measures the temperature difference between the input and output fluid, allowing for the calculation of the heat energy consumed or transferred. Ultrasonic heat meters are widely employed in various applications, including residential and commercial heating systems, district heating networks, and energy management systems, to monitor and optimize energy consumption and billing.

 

Q: What are the advantages of ultrasonic heat meter?

A: Ultrasonic heat meters offer advantages such as accurate measurement, non-intrusive installation, wide dynamic range, long lifespan, and data integration capabilities. They provide precise heat measurement, easy installation, can measure a broad range of flow rates, require minimal maintenance, and allow for seamless integration with data management systems.

 

Q: How can we detect thermal energy?

A: Thermal energy can be detected in several ways. One common method is to use infrared thermography, which involves using a thermal imaging camera to capture and visualize heat patterns emitted by objects. Another method is to use contact sensors, such as thermocouples or resistance temperature detectors (RTDs), which directly measure the temperature of an object through physical contact. Additionally, heat flux sensors can measure the rate of thermal energy transfer through a surface. These sensors can be used in various applications, including building energy audits, industrial process monitoring, and medical diagnostics.

 

Q: What is the application of ultrasonic heat meter?

A: Ultrasonic heat meters find application in various sectors, particularly in energy management and HVAC systems. They are used to accurately measure thermal energy consumption in buildings, helping to optimize energy usage and increase energy efficiency. These meters are also employed in district heating networks to monitor heat distribution and allocate costs accurately among different users. Furthermore, ultrasonic heat meters are utilized in industrial processes to measure and analyze heat transfer rates, ensuring efficient operations. Their non-intrusive installation, wide dynamic range, and integration capabilities make them a reliable choice for precise heat measurement and data management in commercial, residential, and industrial settings.

 

Q: How is ultrasonic energy generated?

A: Ultrasonic energy is generated by the piezoelectric effect. When an electric voltage is applied to certain materials like quartz crystals or ceramics, they deform and create mechanical vibrations at a very high frequency, typically above 20,000 cycles per second. These vibrations produce sound waves with ultrasonic frequencies that can be utilized for various purposes, such as medical imaging, cleaning, measurement, and communication.

 

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