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Supporting Equipments

Physiological Flow Systems

The combination of silicone blood vessels with our advanced controllable flow pump and heating water bath device creates a perfect environment for all programs, medical equipment, and imaging adoption or prototype production plans. Our blood circulation system model accurately reproduces human blood flow, helps medical education and research, and improves learning outcomes. Our blood flow system is suitable for medical classrooms, surgical training, and scientific research experiments, meeting a variety of teaching and research needs. In addition, we provide professional support: We provide comprehensive technical support and after-sales service to ensure that your teaching and research work proceeds smoothly.

Types of Physiological Flow Systems

Cardiac Hemodynamic Simulation Device

In the study of physiological fluid mechanics, an analog pump capable of both pulsation and direct current, along with temperature control and flexible hoses, is essential for accurately simulating the dynamic conditions of bodily fluids.

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Pulsation pump (Touchable display screen)

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Large flow pulsation pump

Our large flow pulsation pumps are designed for fast fluid simulation and can accurately reproduce complex fluid dynamics. Equipped with advanced touch screen display and pressure sensor interface, they can achieve precise control and real-time monitoring of fluid flow.

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Blood Pressure Simulator

Pressure tester, display screen, pressure sensor, point measurement and interval pressure difference measurement.

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Camera System for Medical Models

Our camera system serves as an accessory that complements our products, particularly in our whole body angiography operations. It can also be utilized together with the camera system when performing puncture procedures.

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Cardiac Hemodynamic Simulation Device

Pulsation pump (Touchable display screen)

Large flow pulsation pump

Blood Pressure Simulator

Camera System for Medical Models

The Role of the Types of Physiological Flow Systems

Our physiological flow system includes four categories of products: cardiac hemodynamic simulation device, pulsatile training models, blood pressure simulator, camera system for medical models, mainly function on our vascular model products, simulating the circulation and flow of blood within the vascular simulator. The model is controlled by the system to simulate various parameters such as temperature, pressure, flow rate, heart rate, etc., enabling the entire system to achieve the flow effect of simulating real blood.

Improving Medical Training with Fluid Mechanics Simulation

Improving medical training through Fluid Mechanics Simulation can significantly enhance the skills and response capabilities of medical staff. Fluid Mechanics Simulation can accurately reproduce the behavior of fluids in the human body, such as blood flow and respiratory airflow, making training equipment more realistic. Using advanced fluid mechanics simulation technology, medical training equipment can provide a more realistic operating experience, helping medical staff practice complex medical procedures in a safe environment. The application of pulsatile flow pump enables devices that simulate blood flow to more accurately reproduce the dynamic changes of the heart and vascular system. Through this high-precision simulation, medical staff can better understand and respond to various physiological and pathological conditions and improve their clinical decision-making capabilities. Fluid mechanics simulation can also help optimize the design of training equipment to ensure its performance and reliability under various physiological conditions.

What Is 2D Fluid Dynamics Simulation?

2D Fluid Dynamics Simulation is a technology that uses computer models to analyze and predict the behavior of fluids in a two-dimensional plane. It solves fluid mechanics equations numerically to simulate the flow and interaction of fluids under different conditions. For surgical simulator manufacturer, 2D fluid dynamics simulation can be used to develop and optimize fluid systems in simulators, such as blood flow and gas exchange. Through this simulation, manufacturers can ensure that simulators provide realistic fluid behavior in various surgical scenarios, thereby improving the realism and effectiveness of training. 2D fluid dynamics simulation can also help identify and solve potential problems in the design, reducing R&D time and costs.