DroneVionics

HVAC

Overview

HVAC stands for heating, ventilation, and air conditioning. It focuses on the design, installation, and maintenance of systems that control the temperature, humidity, and air quality in buildings.

DV Research  uses different tools for HVAC simulations, ranging from simple spreadsheet-based calculators to complex software packages that can simulate the behavior of entire HVAC systems. These tools are used to predict the performance of HVAC systems under different conditions, such as temperature, humidity, and airflow, and to optimize their design for energy efficiency, comfort, and indoor air quality.

HVAC simulation is used in a wide range of applications, including residential, commercial, and industrial buildings. It is also used to predict the performance of HVAC systems in different climates and regions, and to optimize their design for energy efficiency and sustainability.

DV Research ensure that these systems are energy efficient and meet the comfort and safety needs of building occupants.

An official contract will be set based on your project description and details.

As we start your project, you will have access to our Portal to track its progress.

You will receive the project’s resource files after you confirm the final report.

Finally, you will receive a comprehensive training video and technical support.

Cleanroom

Cleanrooms are specialized environments that are designed to control particulate contamination, temperature, humidity, and other factors to maintain a high level of cleanliness and prevent contamination of sensitive materials or processes.

DV Research services for cleanroom simulations are as follows:

Particulate contamination: The simulation model the movement and behavior of particles in the cleanroom, including their size, shape, and charge.

Airflow patterns: The simulation predicts the movement of air within the cleanroom and its impact on particulate contamination.

Equipment and personnel movement: The simulation track the movement of equipment and personnel within the cleanroom and the effect on the overall contamination level.

Contamination sources: The simulation identifies and tracks sources of contamination, such as personnel, equipment, and materials, and evaluates their impact on the cleanroom environment.

DV Research optimizes the cleanroom design, evaluates operational procedures, and assesses the effectiveness of contamination control measures. We also identify potential contamination sources and develop strategies for controlling them.

Datacentre cooling

Simulating the cooling systems in a data center can be an effective way to optimize the design and operation of the cooling systems. Simulation allows to model and analyze different scenarios and identify the most efficient and cost-effective cooling solutions.

DV Research focuses on the following factors that can be evaluated through simulation,

  • Airflow patterns within the data center: Simulations are used to predict the movement and distribution of cool air within the data center, and to identify any potential hot spots or areas where cooling may be insufficient.
  • Temperature and humidity: Simulations are used to predict the temperature and humidity levels within the data center, and to ensure that they remain within acceptable ranges.
  • Power and energy consumption: Simulations are used to predict the power and energy consumption of the cooling systems, and to identify opportunities for energy savings.
  • Equipment performance: Simulations are used to predict the performance of the cooling equipment and identify any potential issues or failures.

CFD is a powerful tool for optimizing data center cooling and ensuring the reliable operation of computer systems. DV Research uses CFD to evaluate a wide range of design and operational scenarios and identify the most effective solutions.

Spread of Virus Within an Enclosed Space

Simulating the spread of a virus within an enclosed room helps in understanding how the virus might spread in a real-life setting and inform measures that can be taken to prevent or mitigate the spread of the virus.

To study the spread of a virus safely and quickly within an enclosed room, DV Research uses the following simulation steps,

  • Define the parameters of the simulation, such as the size of the room, the number of people in the room, the ventilation system, and the infectiousness of the virus.
  • Create a virtual model of the room and the people in it, using a 3D graphics program or specialized simulation software.
  • Implement a set of rules that govern how the virus spreads, such as the likelihood of transmission through respiratory droplets or surface contact, the duration of infectiousness, and the effectiveness of preventive measures such as masks and hand hygiene.
  • Run the simulation and observe the spread of the virus over time and vary the input parameters to see how they affect the spread of the virus.