Experimental Solutions

Overview

Experimental solutions are solutions that are not yet fully tested or proven to be effective. They may be used in scientific research or other contexts to explore new ideas or approaches to a problem. Experimental solutions may also be used in situations where there is not yet a known solution, or where existing solutions have not been successful.

The use of experimental solutions can be an important tool for advancing our understanding of a problem and finding new and innovative ways to address it. DV Research uses a number of approaches that can be taken to develop and test experimental solutions

Conducting laboratory or field experiments to test the solution in a controlled environment
Using computer simulations or modeling to explore the potential outcomes of the solution
Gathering data and feedback from test subjects or users to assess the solution’s effectiveness

PIV

Particle image velocimetry (PIV) is a technique used to measure the velocity of fluids, such as gases or liquids, in a given area. It involves the use of a specialized camera and laser system to capture images of tracer particles suspended in the fluid as they move through the area of interest. By analyzing the displacement of the tracer particles over time, it is possible to determine the velocity of the fluid at different points within the area.

There are a number of advantages to using PIV as a method of measuring fluid velocity. It is a non-invasive technique, which means that it does not disturb the flow of the fluid or introduce any external forces. It is also relatively fast and easy to use, and can provide detailed, high-resolution measurements of fluid flow.

DV Research provides PIV services in a variety of fields, including fluid dynamics, efficiency analysis of air-conditioning vehicles, aerodynamics (aircraft body & wing, car, rail vehicles etc.), Visualization and quantification of air flow for medical, pharma and food industries, and environmental engineering. It can be used to study the flow of fluids in a variety of settings, including in pipes, channels, and tanks, as well as in open air or in other natural environments.

LDV

Laser Doppler velocimetry (LDV) is a non-intrusive measurement technique that uses lasers to measure the velocity of a surface or fluid. It works by shining a laser beam onto the surface or fluid, and measuring the frequency shift of the reflected light. This frequency shift is caused by the Doppler effect, which occurs when the surface or fluid is moving relative to the laser.

LDV is used to measure the velocity of a wide range of materials, including gases, liquids, and solids, and is often used in research and industrial applications to study fluid dynamics and the flow of materials. LDV systems typically consist of a laser source, a detection system, and a processor to analyze the data.

The accuracy of LDV measurements depends on the wavelength of the laser, the signal-to-noise ratio of the detector, and the distance between the laser and the surface being measured.

DV Research provides services in the following industries

Fluid dynamics: LDV is often used to study the flow of fluids, such as air, water, and gases. It can be used to measure the velocity of the fluid at different points within a flow field, and to study the flow patterns and turbulence within the fluid.

Materials science: LDV is used to study the behavior of materials under different conditions, such as temperature, pressure, and strain. It is used to measure the velocity of particles within a material, or to study the mechanical properties of materials, such as their strength and stiffness.

Biomedical engineering: LDV is used to study the flow of blood within the body, and to measure the velocity of blood cells and other particles. This is useful for studying the effects of different medical treatments, or for diagnosing cardiovascular conditions.

Industrial applications: LDV is used to optimize the performance of industrial processes, such as the flow of gases or liquids through pipes or valves. It is also used to study the behavior of materials during manufacturing processes, such as welding or casting.

Environmental monitoring: LDV is used to study the flow of air and water in the environment, and to measure the velocity of particles within these fluids. This is useful for studying the impacts of pollution or climate change, or for monitoring the health of ecosystems.

The benefits of availing
of experimental services

We offer substantial experimental expertise
A fast response to problems
Utilizing cutting-edge measurement technologies in a risk-free manner
Support for internal capacity issues and simple, adaptable cooperation
Using the measuring equipment does not require any technical knowledge;
There are no charges for purchasing the measuring equipment