Case Study | Integrated Mini Cooling Solution for Medical Laser Aesthetic Device
A company from the Czech Republic seeks MOIR for mini compressor cooling unit for their medical laser equipment, with cooling capacity of 500 watts at a coolant temperature of 25C. MOIR recommends its Nickel-blazed plate liquid chiller to achieve their cooling purpose with no corrosion problem while keeping peak performance.
3 Types of Miniature Vapor Compression Refrigeration Systems
There are 3 types of miniature, vapor compression refrigeration systems ( air-cooled system, liquid-chilled-system, and direct refrigerant systems) with unique features and advantages for different thermal applications.
7 Reasons Why You Need A Miniature Compressor Cooling System
Miniaturized compressor refrigeration systems are transforming the way businesses manage thermal needs. Maximize space efficiency, save on energy costs, and ensure reliability with these versatile and environmentally friendly systems. If you’re looking for a unique, reliable and efficient refrigeration solution for your thermal business, invest in a compact refrigeration system.
How to Choose the Right Compact Compressor Cooling Unit?
How to choose the right compact compressor cooling units for your application to boost their cooling performance, maintaining productivity, and equipment longevity. With the numrous available, selecting the perfect cooling system can be challenging
Revolutionizing Aesthetics Laser Practice: Miniaturized Compressor Cooling System
The introduction of the compressor cooling system represents a significant leap forward in the medical aesthetics industry. Its compactness, silence, high efficiency, and environmental friendliness make it an invaluable asset for medical practitioners seeking to provide high-quality care in a manner that is both effective and responsible.
Introducing MOIR New Cooling Unit – Mini Liquid Chiller Module MC02824E-P6
The future cooling systems had to be not only particularly small but also exceptionally powerful, with a low noise and vibration level. In addition, it also had to be extremely lightweight. If you’re landing here, you’re in the right place.
Why a Compressor-Based Cooling System Is Essential for Laser Applications?
Laser systems generate amounts of heat during operation and an effective of cooling method is crucial to actively remove heat from the systems. Compressor-based cooling systems are a prime example of active cooling, ensures a consistent temperature in the coolant flow of a closed-loop system.
What’s Active Cooling? Active Cooling vs. Passive Cooling
There are two main types cooling systems- active cooling and passive cooling for removing heat from the electronics. What active cooling is, how it differs from passive cooling? When is a cooling system actually necessary? In this article, it will figure it out for you.
The Integrated Compact Cooling System for Medical Laser Equipment
The increasing popoluar laser technology in medical equipment demands functionability of compact, fast, and powerful. While the generation of heat load during the operation requires an effecient and reliable cooling system to ensure the stable operation and patient safety.
The Optimal Mini Cooling Solution for Drone Docking Station
The power supply system and crucial electronics housed within the station generate continuous heat loads that can have a detrimental effect on battery performance. An effective cooling system must protect the critical docking station and backup battery systems, to ensure a reliable operation.
