MedSolut AG

Exploring Cooling Technology at

Is your industry dependent on maintaining optimal temperatures for sensitive materials, such as the medical, pharmaceutical, or food sectors? If so, then you understand the importance of efficient and sustainable cooling technology. In a world where energy consumption and environmental impact are critical concerns, we show you the advancements in cooling technology that address these challenges while meeting the specific needs of various industries. Dive in to learn about innovative solutions, eco-friendly materials, and future trends in cooling technology.

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Innovations in Energy-Efficient Cooling Systems for Lab and Industry

Recent developments in energy-efficient cooling systems have revolutionized temperature management in laboratories and industries. These innovative solutions range from new air conditioning technology to intelligent cooling systems utilizing advanced technologies. The medical, pharmaceutical, and food industries, in particular, benefit from these energy-efficient cooling systems. They employ various technologies and strategies to reduce energy consumption while maintaining optimal cooling conditions, such as chilled water systems, cool storage, and advanced cooling plant designs.

One example of an innovative cooling process is the Rear Door Heat Exchanger (RDHx), which offers supplementary cooling capacity to direct liquid cooling solutions when complete heat capture and neutralization are necessary. RDHx employs the same liquid loop as the CDU, rack manifold, and cold plate loops, which are often used in conjunction with cooling towers for efficient heat dissipation. Therefore, energy-efficient cooling systems play a significant role in maintaining optimal cooling conditions and minimizing energy consumption, irrespective of the facility’s geographical location.

Smart Cooling Technologies

Industries worldwide are witnessing a transformation due to Smart Cooling Technologies, which provide precise temperature control and monitoring, thereby enhancing performance and energy efficiency. Variable Speed Compressor technology and adaptive control are one example of efficient energy-saving technologies. This technology can quickly restore the temperature to the set point, even after frequent door openings in a busy lab environment. The ACT Environmental Impact Factor labeling process plays a significant role in smart cooling technologies. It provides accurate and verified information about the environmental impact of laboratory products through third-party verification.

With the integration of smart technologies, cooling systems can:

  • Accurately adjust cooling power according to temperature conditions inside and outside the unit

  • Improve temperature homogeneity

  • Extend unit life

  • Achieve remarkable energy efficiency.

Passive Cooling Solutions

Passive cooling solutions offer an alternative approach to temperature management without consuming additional energy. Examples of passive cooling solutions include:

  • Evaporative fluid coolers

  • Dry fluid coolers

  • CoolIT Systems CPU coldplates

These solutions can provide an energy reduction of up to 32% compared to conventional refrigerators, with the TSX Series refrigerator being up to ten times quieter than earlier models. The benefits of passive cooling solutions extend beyond energy efficiency. They also offer increased reliability and a decreased rate of malfunction. Passive cooling solutions, by curbing energy consumption and effectively managing temperature, foster a more sustainable and eco-friendly methodology across diverse industries.

What kind of industries is cooling technology used in?

A broad spectrum of industries such as industrial manufacturing, data centers, automotive, pharmaceutical and medical, food and beverage, and research and laboratories, heavily rely on cooling technology. Each industry has specific requirements and challenges when it comes to temperature management. Thermo Scientific offers a range of equipment specifically designed to store volatiles in hazardous environments. Flammable materials and explosion-proof refrigerators are two examples from their product range. They must be used where ignitable materials are present in Class 1, Groups C and D, and Class 1, Zone 1, Group IIB areas. This is to ensure a spark-free internal cabinet environment.

Cooling Technology Devices for Lab and Industrie

There exists a diverse array of cooling technology types and devices to meet the varied requirements of laboratories and industries. These include:

  • TLaboratory refrigerator/freezer combinations: They offer plug-and-play ease of use, laboratory-grade durability, and versatility in laboratory-grade cold storage.

  • Scientific and medical refrigerators: They provide reliable and secure storage for laboratory and clinical materials.

A wide selection of cooling devices tailored to different size and storage needs enables laboratories and industries to find the perfect solution for their specific temperature management needs. From ultra-low temperature freezers for research applications to blood bank refrigerators for medical facilities, the advanced cooling systems available today are designed to support the unique demands of each industry.

Blood Refrigerating Systems

Blood refrigerating systems play a crucial role in ensuring the safe storage and preservation of blood and blood products. The storage of these sensitive materials presents distinct equipment challenges, such as maintaining a temperature range between 2 °C and 6 °C for blood and plasma. To address these challenges, recent advancements in blood refrigerating systems include:

  • Portable blood and vaccine refrigerators

  • Energy-saving cooling technologies

  • Precise temperature performance

  • Continuous monitoring solutions

  • Data logging capabilities

The adoption of these innovative blood refrigerating systems allows healthcare facilities to preserve blood products’ quality, thereby ensuring their patients’ well-being. Temperature regulation in blood refrigerating systems ensures a predetermined temperature range, guaranteeing optimal conditions for blood storage.

Medical Cooling Solutions

Medical cooling solutions offer precise temperature control for critical medical applications, such as vaccine storage and organ preservation. Storage environment must be precisely controlled for the safe preservation of vaccines, pharmaceuticals, nucleic acids, high-value reagents, enzymes and blood products. Otherwise, their effectiveness may be compromised. Vaccine and pharmacy refrigerators are designed for easy access and identification of vaccines, pharmaceuticals, and chemotherapeutics. They feature adjustable basket drawers and glass doors, allowing precision storage of 2 ° to 8 °C.

Maintaining precise temperature control is imperative for the safety and effectiveness of medical materials. For example, medical cooling solutions must maintain a temperature range of 2-10 °C at factory setpoint for precision and 1-12 °C at factory setpoint for reliability. By offering a range of tailored medical cooling solutions, healthcare facilities can confidently store and preserve their critical materials, ensuring patient safety and well-being.

Laboratory Cooling Technologies

Laboratory cooling technologies and devices, such as Thermo Fisher Scientific’s laboratory refrigerators, are designed to provide reliable temperature management for research and testing purposes. These refrigerators offer a durable and versatile cold storage solution, with features such as:

  • Scratch-resistant, heavy-gauge, cold-rolled steel interior and exterior with smooth powder coat and epoxy finishes

  • One-piece seamless polypropylene liner interiors or galveneel options

  • Closed-cell gaskets

Rapid door opening recovery is of particular importance in laboratory refrigerators, as frequent door openings or samples being added to a refrigerator create a substantial heat load burden. The cooling capacity to promptly recover from these events is critical to the performance of these devices. With access to a broad spectrum of laboratory cooling technologies and devices, researchers can effectively maintain the required temperature conditions for their experiments, thereby guaranteeing accurate and reliable results.

Manufacturers of Innovative Cooling Technologies partners with leading manufacturers of innovative cooling technologies, such as:

This ensures that customers have access to the highest quality cooling solutions available. These manufacturers have developed cutting-edge cooling systems that focus on energy efficiency, sustainability, and performance., offering a broad assortment of cooling technologies and devices, facilitates customers in finding the perfect solution that meets their specific industry needs. By partnering with these renowned manufacturers, is committed to providing the latest advancements in cooling technology, ensuring optimal temperature management and preservation of sensitive materials across various industries.


Liebherr is known for its advanced cooling systems and smart monitoring features, which contribute to improved performance and energy efficiency. Some key features of Liebherr’s cooling systems include:

  • High output density

  • Reduced mass and weight

  • Dependability and accessibility

  • Minimal energy usage

  • Low sound emissions

In addition, Liebherr’s refrigeration systems utilize a dual compressor system and the DuoCooling system for enhanced food preservation. Liebherr’s SmartMonitoring system is an innovative solution that utilizes artificial intelligence (AI) and machine learning (ML) to optimize energy efficiency and performance in cooling systems. This system provides:

  • Continuous temperature control and monitoring

  • Ensuring that cooling appliances maintain ideal temperature levels while reducing energy consumption

  • Integrated alarm notifications for temperature, door, or electrical faults

  • Allowing for prompt intervention and preventing potential issues that could affect performance and energy efficiency


Kirsch is a leading provider of high-quality cooling solutions for medical and laboratory applications. They offer:

  • Laboratory refrigerators and freezers for the cooling of flammable materials

  • Pharmaceutical refrigerators with robust insulation

  • Laboratory freezers with explosion-proof interiors and re-circulating air cooling

Kirsch’s cooling systems are distinguished by their comprehensive in-house testing services, guaranteeing the quality and dependability of their products. One of Kirsch’s innovations includes the MagnetoCool® technology, which uses magnets for cooling in their refrigerators. This approach leads to a 30% decrease in energy consumption compared to traditional cooling methods, contributing to both energy efficiency and environmental sustainability.

Carlo Erba

Carlo Erba specializes in cooling devices for various industries, including pharmaceutical and research. They have developed innovations in energy-efficient cooling technology, such as:

  • Ultra-low temperature freezers that use eco-friendly hydrocarbon coolant

  • High-efficiency blowers to maximize cooling ability and save energy

  • Refrigerant system that utilizes propane and ethane, allowing for accurate cooling conditions and contributing to energy efficiency and environmental sustainability.

Carlo Erba’s cooling technology addresses the requirements of various industries by providing a range of products, including ultra-low temperature freezers, medical refrigerators, and industry refrigerators with cooling technology. In addition, they supply cleanroom technology with a cooling unit for temperature control.


Fryka specializes in cooling systems for laboratory and industrial applications. Their technology offers a range of unique features and advantages, including:

  • A quiet fan with EC technology for reduced energy consumption and quieter operation

  • A compact design and small footprint

  • A water-protected keyboard and easy filling

  • A control unit with a keyboard or color touchscreen controller

  • Expertise in chilling and freezing

  • The highly reliable TRUE DUAL™ technology for double security

Fryka’s cooling technology offers:

  • Performance and reliability

  • Environmental sustainability

  • Energy efficiency

  • Innovative technologies

  • Effective temperature management solutions for laboratories and industries


POL-EKO-APARATURA offers a range of innovative cooling technologies, including incubators with cooling systems based on Peltier cell technology and refrigerators with a new cooling system called M-monoblock. These advancements contribute to energy efficiency and environmental sustainability, ensuring that POL-EKO-APARATURA’s cooling solutions are both effective and eco-friendly. By providing a wide variety of advanced cooling solutions, POL-EKO-APARATURA caters to the diverse needs of various industries, ensuring optimal temperature management and preservation of sensitive materials. Their focus on energy efficiency and sustainability demonstrates their commitment to meeting the evolving demands of industries while minimizing environmental impact.

Environmental Impact and Sustainability

Aligning with the escalating global concern for energy consumption and its environmental repercussions, cooling technology at is devoted to minimizing environmental impact and fostering sustainability in our world. Standard air-conditioning systems, for example, are highly energy-intensive and have a detrimental effect on global warming. The International Energy Agency (IEA) predicts that worldwide annual energy demand from cooling will increase threefold by 2050, emphasizing the need for innovative and energy-efficient cooling systems.

In response to this issue, provides a selection of cooling technologies centered around energy efficiency, sustainability, and performance. By incorporating eco-friendly materials, water conservation measures, and energy-efficient technologies, ensures that their cooling solutions minimize environmental impact and promote a sustainable future.

Reducing Greenhouse Gas Emissions

Innovative cooling systems help reduce greenhouse gas emissions by using energy-efficient technologies and eco-friendly refrigerants, such as:

  • Isobutane (R600A)

  • Ammonia (R-717)

  • Carbon Dioxide (R-744)

  • Propane (R-290)

These refrigerants have a low Global Warming Potential (GWP) and zero ozone depletion potential, making them environmentally friendly options. By enhancing efficiency, reducing energy demand, and complying with stricter energy efficiency standards, energy-efficient cooling systems have the potential to significantly curb greenhouse gas emissions. In fact, research indicates that energy-efficient air conditioning appliances have the capacity to reduce up to 460 billion metric tons of greenhouse gas emissions. Improving cooling efficiency can also reduce the need for new power plants, which in turn diminishes emissions and provides cost savings to consumers.

Water Conservation

Water conservation is a priority in cooling system design, as water is an invaluable resource that must be used judiciously to minimize unnecessary usage and waste. Water-saving evaporative coolers, for instance, operate by:

  1. Drawing hot air into the cooler

  2. The hot air passes through evaporative media kept moist by a water pump

  3. As the hot air passes through the moistened media, the water molecules evaporate

  4. This leads to a decrease in the air temperature and provides a refreshing and energy-efficient cooling effect.

Dry fluid coolers, on the other hand, contribute to water conservation by operating without water consumption. Unlike traditional cooling systems that require water for heat transfer, dry coolers use ambient air to remove heat from the substance being cooled, eliminating the need for water as a cooling medium and reducing water usage. Industries can contribute to water conservation initiatives and foster environmental sustainability by integrating water-saving measures into the design of cooling systems.

Eco-friendly Materials and Design

Eco-friendly materials and design elements are incorporated into cooling systems to minimize environmental impact and promote sustainability. Some examples of eco-friendly materials employed in cooling systems include:

  • Geothermal systems

  • Air source heat pumps

  • Barocaloric materials

  • Cooling paper

These materials help to reduce energy consumption and greenhouse gas emissions, making cooling systems more environmentally friendly. The adoption of eco-friendly materials and design elements in cooling systems yields multiple benefits, including:

  • Environmental sustainability

  • Energy efficiency

  • Improved air quality

  • Integration of renewable energy

  • Long-term cost savings

As industries continue to prioritize environmentally friendly practices, the use of eco-friendly materials and design in cooling systems will play a crucial role in reducing environmental impact and fostering sustainable development.

Future Trends in Cooling Technology

Emerging trends in cooling technology encompass the incorporation of artificial intelligence (AI) and machine learning (ML), exemplified by Liebherr’s SmartMonitoring system, to enhance performance and efficiency. By embracing these advanced technologies, industries can achieve:

  • Optimal balance between energy efficiency and indoor air quality

  • Reduced energy costs

  • Enhanced sustainability

  • Enabled predictive maintenance

  • Optimized efficiency

The integration of AI and ML in cooling technology is expected to have a significant impact on various industries, such as medical, pharmaceutical, lab, research, and food. These industries rely heavily on temperature-controlled environments for a range of purposes, including storing medications, preserving lab samples, conducting research experiments, and ensuring food safety. Innovations in cooling technology will enable more precise temperature control, improved energy efficiency, and better preservation methods, ultimately leading to higher quality and longer shelf life for pharmaceuticals, increased accuracy and dependability in lab experiments, and improved food preservation and safety standards.

Artificial Intelligence and Machine Learning

Liebherr’s SmartMonitoring system is a prime example of how AI and ML integration can revolutionize cooling technology. This advanced cooling technology offers:

  • Continuous temperature control and monitoring

  • Ensuring that cooling appliances maintain ideal temperature levels while decreasing energy consumption

  • Integrated alarm notifications for temperature, door, or electrical faults

  • Allowing for prompt intervention and preventing potential issues that could affect performance and energy efficiency

Integration of AI and ML into cooling systems allows industries to reap benefits such as:

  • Enhanced system performance

  • Adaptive control

  • Predictive maintenance

  • Superior user experience

As cooling technology continues to evolve, the integration of AI and ML will play an increasingly critical role in shaping the future of temperature management solutions, ensuring optimal performance and efficiency for various industries.

Find the ideal cooling technology for your needs at provides a comprehensive array of cooling technologies and devices tailored to the distinct needs of various industries, thereby guaranteeing optimal temperature management and preservation of sensitive materials. By partnering with leading manufacturers of innovative cooling technologies. guarantees that customers have access to the highest quality cooling solutions available. If you’re searching for the perfect cooling solution for your industry, we're here to help. Our knowledgeable team of experts is available to provide advice and support in selecting advanced laboratory cooling solutions.

Frequently Asked Questions

What is a cooling technology?

Cooling technology is a system used to maintain a safe and efficient temperature within a device or structure. It prevents overheating, which can compromise the functioning of various parts such as oil in mechanical transmission and fluid in hydraulic couplings and converters.

What is the latest cooling technology?

Ionocaloric cooling, recently described in a paper published in the journal Science on December 23, 2022, is the latest cooling technology. This technique uses energy stored or released when a material changes phase to cool items down.

What is the most effective cooling?

Central air conditioning systems are the most effective cooling option for efficient home cooling.

What are some examples of innovative cooling technologies?

Innovative cooling technologies include smart cooling, passive cooling solutions, and AI-integrated systems like Liebherr's SmartMonitoring system, providing an effective solution to reduce energy costs and optimize the efficiency of cooling systems.