FLUID FLOW VELOCITY MEASUREMENT VIA THERMAL CONDUCTION

Organization Name

Saudi Arabian Oil Company

Inventor(s)

Mustafa A. Al-huwaider of Dhahran (SA)

Shouxiang Mark Ma of Dhahran (SA)

FLUID FLOW VELOCITY MEASUREMENT VIA THERMAL CONDUCTION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18076852 titled 'FLUID FLOW VELOCITY MEASUREMENT VIA THERMAL CONDUCTION

Simplified Explanation:

This patent application describes a fluid velocity sensor that uses a thermally conductive body with multiple temperature sensors to determine the flow rate of a fluid passing through it.

• The sensor includes a heating element to heat the thermally conductive body.
• Three temperature sensors are placed at different radial distances from the heating element within the body.
• The flow rate of the fluid is calculated by comparing the internal temperatures measured by the temperature sensors.

Key Features and Innovation:

• Use of a thermally conductive body with multiple temperature sensors for fluid velocity measurement.
• Heating element integrated within the sensor for temperature control.
• Radial placement of temperature sensors for accurate flow rate calculation.

Potential Applications:

• Industrial flow measurement systems.
• HVAC systems for efficient fluid flow monitoring.
• Automotive applications for fuel flow monitoring.

Problems Solved:

• Accurate and reliable fluid flow rate measurement.
• Improved temperature control for precise calculations.
• Enhanced efficiency in various fluid flow systems.

Benefits:

• Increased accuracy in flow rate measurement.
• Better control over fluid temperature.
• Improved overall system efficiency.

Commercial Applications:

The technology can be utilized in industries such as manufacturing, automotive, and HVAC for precise fluid flow monitoring and control, leading to improved efficiency and cost savings.

Prior Art:

Readers can explore prior patents related to fluid velocity sensors, thermally conductive bodies, and temperature sensor integration for further research.

Frequently Updated Research:

Stay updated on the latest advancements in fluid velocity sensing technologies, temperature control systems, and industrial flow measurement applications for potential improvements in this field.

Questions about Fluid Velocity Sensor: 1. What are the key advantages of using a thermally conductive body in a fluid velocity sensor? 2. How does the radial placement of temperature sensors contribute to the accuracy of flow rate measurement?

Original Abstract Submitted

A fluid velocity sensor can include a thermally conductive body comprising a first temperature sensor, a second temperature sensor, and a third temperature sensor. A heating element is secured within the fluid velocity sensor to heat the thermally conductive body. The first temperature sensor, the second temperature sensor, and the third temperature sensor each reside within the thermally conductive body at different radial distances from the heating element. A flowrate of a fluid in contact with the fluid velocity sensor is determined based on a comparison between the internal temperatures measured by each of the first, second, and third temperature sensors.