2-2 VALVE SMC LVM95 - USED TO DRIVE NITROGEN by GE Healthcare
Product Overview
Key highlights
The GE Healthcare 2-2 Valve SMC LVM95 is designed specifically for driving nitrogen in medical applications. Its reliable performance ensures optimal operation in various healthcare settings, making it an essential component for systems requiring precise nitrogen control. 2 2 VALVE SMC LVM95 USED TO DRIVE NITROGEN by GE Healthcare
Key Highlights
- The 2-2 Valve SMC LVM95 is engineered by GE Healthcare, ensuring high reliability and performance in driving nitrogen systems.
- This component is essential for maintaining optimal functionality in various medical imaging systems, particularly in PET and CT applications.
- Designed for ease of integration, the valve supports streamlined workflows and enhances the efficiency of imaging procedures.
- Its robust design minimizes maintenance needs, contributing to reduced downtime and improved operational efficiency.
- As a used component, it offers a sustainable option for facilities looking to optimize their equipment without compromising quality.
Compatible Systems & Use Cases
The 2-2 Valve SMC LVM95 is likely compatible with various imaging modalities, particularly in PET and CT systems. Its primary use case involves driving nitrogen for cooling and operational purposes, essential for maintaining the integrity of imaging equipment.
Technical Specifications
| Parameter | Value |
|---|---|
| Brand | GE Healthcare |
| Part Number | 5173884 |
| Type | 2-2 Valve |
| Functionality | Nitrogen Drive |
| Usage Condition | Used |
Clinical and Service Value
The procurement of the 2-2 Valve SMC LVM95 provides healthcare facilities with a reliable solution to enhance the operational efficiency of imaging systems. By integrating this valve, institutions can ensure that their nitrogen systems function optimally, which is crucial for the performance of PET and CT imaging. This component's robust design supports long-term use, reducing the frequency of replacements and associated service disruptions.
Moreover, the valve's compatibility with existing systems allows for seamless integration into current workflows. This minimizes the need for extensive training or adjustments, thereby facilitating a smoother transition for biomedical engineers and clinical staff. The maintenance requirements are also reduced, as the valve is designed to operate efficiently over extended periods, thus contributing to improved uptime for imaging systems and enhancing overall patient care delivery.
Additional notes
2-2 VALVE SMC LVM95 - USED TO DRIVE NITROGEN by GE Healthcare