Immersion cooling is a cooling technique often applied as an IT cooling practice, by which computer electronics, including complete servers and storage devices, are fully submerged in a thermally conductive but electrically insulating

liquid A liquid is a nearly incompressible fluid that conforms to the shape of its container but retains a (nearly) constant volume independent of pressure. As such, it is one of the four fundamental states of matter (the others being solid, gas, a ...

or coolant. This practice is highly effective because liquid can absorb a lot more heat energy and is more efficienty to move compared to air. Fluids suitable for immersion cooling have electrically insulating properties to ensure that they can safely come into contact with electronic components, which means that these electronics are functioning within the liquid. In general, there are two main liquid categories which are used for this application, Hydrocarbons like various types of oils and esters and so-called fluorocarbons which are fully engineered liquids. Immersion applications and the used liquids are again divided into single- and two-phase applications. Single phase immersion works by mechanically (pumping) or naturally circulating cool liquid through hot electronic components like chips and power supplies and then through

heat exchanger A heat exchanger is a system used to transfer heat between a source and a working fluid. Heat exchangers are used in both cooling and heating processes. The fluids may be separated by a solid wall to prevent mixing or they may be in direct contac ...

s which transfer the heat into a water circuit for centralized cooling (or heating). Two-phase applications work exclusively with fluorocarbon liquids. This liquids in this application boil at very low temperatures which causes them to use a phase change process to extract heat from hot components. Asperitas AIC24 Immersion system

Shapes and forms

The OpenCompute Project has provided unified industry definitions for the most common immersion cooling technology applications. "Enclosed chassis" require dripless connectors to interface to the individual chassis. These chassis are usually based on traditional rack style implementations. The dripless connectors usually require a small closed circuit cooling loop with a coolant to protect the flow integrity through relatively small pipes and connectors. The closed circuit is facilitated by a CDU or Coolant Distribution Unit, which usually can facilitate multiple racks at once. “Open bath” refers to the “open” liquid-air interface and thus surface tension between the liquid and the air being a distinctive element. Open bath systems are usually tanks which contain a larger body of dielectric liquid where electronics are immersed into the bath. Multiple electronic assemblies are sharing the same liquid. This liquid can be based on single- or two-phase technology. Regardless of the term, open bath systems can be fully sealed, but are always opened from the top to service IT equipment. The coolant tank for open bath immersion systems is either connected to a CDU which circulates the dielectric liquid, or to an integrated heat exchanging device which is part of the tank. For a facility interface, CDU's are usually designed for 100 kW or more, whereas an integrated heat exchanging device is usually designed for 10-100 kW cooling capacity. "Hybrid" refers to combinations of the forementioned shapes and forms. There are numerous solutions in the industry already with unique and diverse approaches. These may not always fit in any designated definition. Depending on which aspect is relevant, these strategies may be positioned as any overlapping definition.

Evolution

Immersion cooling reduces energy consumption through the elimination of the air cooling infrastructure including on-board server fans, CRACs, A/C compressors, air-circulation fans, necessary duct work, air handlers, and other active ancillary systems such as dehumidifiers. These systems are replaced with liquid circulation pumps and heat exchanger and/or dry cooler systems. Power use at data centers is often measured in terms of

Power Usage Effectiveness Power usage effectiveness (PUE) is a ratio that describes how efficiently a computer data center uses energy; specifically, how much energy is used by the computing equipment (in contrast to cooling and other overhead that supports the equipment). ...

(PUE). The definitions of PUE for air-cooled devices and liquid immersion cooled devices are different which makes such direct comparisons inaccurate. The PUE for air-cooled data centers includes the power used by the fans and other active cooling components found in the servers. The PUE for liquid immersion cooling excludes these values from the IT Equipment Energy component because these system elements (in particular on board fans) are generally removed from the IT equipment as they are not necessary to circulate the dielectric coolants. This discrepancy in the definition of PUE for the different cooling methods results in the PUE of air-cooled data centers generally being overstated when compared against the PUE of a liquid immersion cooled facility of the same power usage. Servers and other IT hardware cooled by immersion cooling do not require fans to circulate the dielectric liquid, thus they are removed from the system prior to immersion.

Thermal paste Thermal paste (also called thermal compound, thermal grease, thermal interface material (TIM), thermal gel, heat paste, heat sink compound, heat sink paste or CPU grease) is a thermally conductive (but usually electrically insulating) chemi ...

s which are typically used on heat spreaders for CPUs and other chips may require replacement with a different compound in order to avoid the thermal degradation within the dielectric liquid. Depending on the type of application, solder, Indium foil and thermally conductive epoxies may be used as a replacement materials. The temperatures used in immersion cooling are determined by the highest temperature at which the devices being immersed can reliably operate. For servers this temperature range is typically between , however in ASIC based crypto mining devices this range is often extended up to 75C. This increase in the high end of the temperature range allows

data center A data center (American English) or data centre (British English)See spelling differences. is a building, a dedicated space within a building, or a group of buildings used to house computer systems and associated components, such as telecommunic ...

s operators to use entirely passive dry coolers, or much more efficient evaporative or

adiabatic cooling In thermodynamics, an adiabatic process (Greek: ''adiábatos'', "impassable") is a type of thermodynamic process that occurs without transferring heat or mass between the thermodynamic system and its environment. Unlike an isothermal process, ...

towers instead of chiller-based air cooling or water chillers. This increase in the temperature range also allows operators using single-phase immersion coolants to more effectively use the change in outdoor temperatures to get more efficient cooling from their systems because the single-phase systems are not limited in their effectiveness by the boiling point of the coolant as is the case with two-phase coolants. Multiple relevant brands like

Intel Intel Corporation is an American multinational corporation and technology company headquartered in Santa Clara, California. It is the world's largest semiconductor chip manufacturer by revenue, and is one of the developers of the x86 seri ...

and

Facebook Facebook is an online social media and social networking service owned by American company Meta Platforms. Founded in 2004 by Mark Zuckerberg with fellow Harvard College students and roommates Eduardo Saverin, Andrew McCollum, Dustin M ...

have already validated the advantages of submerging servers. Current commercial applications for immersion cooling range from datacenter oriented solutions for commodity server cooling, server clusters,

HPCC HPCC (High-Performance Computing Cluster), also known as DAS (Data Analytics Supercomputer), is an open source, data-intensive computing system platform developed by LexisNexis Risk Solutions. The HPCC platform incorporates a software architect ...

applications and

Cryptocurrency A cryptocurrency, crypto-currency, or crypto is a digital currency designed to work as a medium of exchange through a computer network that is not reliant on any central authority, such as a government or bank, to uphold or maintain it. It i ...

mining. and mainstream cloud-based and web hosting architectures. Electric vehicle and battery manufacturers also employ liquid immersion cooling in batteries, drive-train, Kinetic energy recovery systems, electric motors, electric motor controllers, and other on-board electronic sub systems. Liquid immersion cooling is also used in the thermal management of LEDs, Lasers, X-Ray machines, and Magnetic Resonance Imaging devices. Immersion cooling is applied to electronic components in deep sea research where Remotely Operated Underwater Vehicles with electronic equipment are filled with Single-phase Liquid Dielectrics to both protect them from corrosion in seawater and as a pressure compensating fluid to avoid being crushed by the extreme pressure exerted on the ROV while working in the deep sea. This application also includes the cooling of the electric motors used for under sea propulsion. Until about 2014, the technology was typically only utilized in special very intensive supercomputing projects, like the Cray Computer Applications. Even though the expected increase in global energy consumption by data centers has remained steady, there is an increased focus on energy efficiency which has driven the utilizing of liquid immersion cooling in both data centers and crypto mining operations to reevaluate its application. The advent of new very high density CPUs and GPUs for use in real-time processing, Artificial intelligence, machine learning, and data mining operations is resulting in users and data center operators to evaluate liquid immersion cooling for ability to cool high density racks as well as reduce the total mechanical footprint of data centers.

History

19th and 20th century immersion milestones: * Immersing electric systems (specifically transformers) in dielectric fluids for thermal management was used before 1887. * The first patent to explicitly mention the use of oil as a coolant and insulator is in the patent submitted for a Constant Current Transformer in 1899 by Richard Fleming of Lynn, Massachusetts, assignor to the General Electric Company of New York * The first reference to the specific use of dielectric fluids being used to cool "computers" is in 1966 by Oktay Sevgin of IBM. * In 1968, Richard C. Chu and John H. Seely, working for IBM patented an "Immersion cooling system for modularly packaged components." * Seymour R. Cray Jr. founder of Cray Research, LLC patented a "Immersion cooled high density electronic assembly" in 1982. * The

Cray T90 The Cray T90 series (code-named ''Triton'' during development) was the last of a line of vector processing supercomputers manufactured by Cray Research, Inc, superseding the Cray C90 series. The first machines were shipped in 1995, and featured a ...

(released in 1995) used large liquid-to-chilled liquid heat exchangers and single or two-phase immersion cooling liquids for heat removal * Due to the arrival of CMOS, significant energy savings were achieved in CPU's which rapidly reduced the cooling challenges of HPC systems. It was not until the second decade that immersion regained traction due to increasing thermal properties of chips. 21st century immersion milestones: * In 2006, Hardcore Computer Inc was founded on the concept of introducing enclosed chassis style PC's for gaming. * In 2009, Green Revolution Cooling rebooted the open bath immersion cooling concept by bringing a commercial open bath immersion system to the HPC industry * In 2010, Midas Green Technologies ran and operated the first Immersion Cooling Data Center * In 2011, Iceotope launched the first commercial rack-style enclosed chassis based technology, specifically designed for datacenter deployments. * In 2016, Asperitas created the first pumpless natural convection circulated high density, single phase open bath immersion system. * Starting in 2016, the rise of crypto currency becomes a main and significant driving force behind immersion. This is due to the high TCO advantages which are highly valued in crypto mining. This period has allowed many immersion technologies to gain essential experience and mature their technologies. * 2017 shows a large volume of start-ups in the immersion cooling domain. Mostly related to cryptocurrency and the increasing power and cooling challenges in the datacenter industry. * In 2018, the

Open Compute Project The Open Compute Project (OCP) is an organization that shares designs of data center products and best practices among companies, including ARM, Meta, IBM, Wiwynn, Intel, Nokia, Google, Microsoft, Seagate Technology, Dell, Rackspace, Hewlett Pack ...

officially embraces immersion in a new project under Rack & Power as part o
ACS (Advanced Cooling Solutions).
* In 2019, the first documented industry standards for immersion ar
presented at the OCP summit
in San Jose. * In 2020, Telecommunications Industry Association publishes their first mention of Immersion Cooling as a viable cooling option. * In 2021, as chips thermal properties have gone beyond air-cooling capabilities, various hyperscale cloud companies, chip manufacturers and server OEMs have announced their adoption of immersion cooling. * In 2022, Intel announces investment of 700 million USD in a mega lab focused on immersion cooling and publishes a fluid specification for immersion cooling which will allow the support of warranty of Intel products.

Server immersion cooling techniques

Open bath immersion cooling

Open bath immersion cooling is a data center cooling technique that implies fully submerging IT equipment in dielectric liquid. The “open” aspect does not refer to an open or sealed system, but refers to the “open” liquid-air interface and thus surface tension between the liquid and the air being a distinctive element. These baths allow the coolant fluid to be moved through the hardware components or servers submerged in it. Single-phase-immersion-cooling-diagram

Dual loop Single phase immersion requires circulation of the dielectric liquids by pumps or by natural convection flow. These liquids always remain in liquid state while operating. They never boil or freeze. The dielectric coolant is either pumped through an external

where it is cooled with any facility coolant, or the facility coolant is pumped through an immersed heat exchanger, which facilitates heat transfer within the dielectric liquid. Natural Convection Circulation by Asperitas

Natural Convection Circulation by Asperitas

In two-phase systems, fluorocarbons are used as heat transfer fluids. Heat is removed in a two-phase system, where the liquid literally boils when it comes in contact with hot components, due to its low boiling point. The system takes advantage of a concept known as “

latent heat Latent heat (also known as latent energy or heat of transformation) is energy released or absorbed, by a body or a thermodynamic system, during a constant-temperature process — usually a first-order phase transition. Latent heat can be understo ...

” which is the heat (thermal energy) required to change the phase of a fluid, this occurs when the two-phase coolant comes in contact with the heated electronics in the bath that are above the coolants boiling point. Once the two-phase coolant enters its gas phase it must be cooled or condensed, typically through the use of water cooled coils placed in the top of the tank. Once condensed the two-phase coolant drips back into the primary cooling tank. The two-phase coolant in the tank generally remains at it “saturation temperature”. Energy transferred from the servers into the two-phase coolant will cause a portion of it to boil off into a gas. The gas rises above the liquid level where it contacts a condenser which is cooler than the saturation temperature. This causes the gaseous state coolant to condense back into a liquid form and fall back into the bath.

Enclosed chassis immersion cooling

Sealed server immersion cooling encloses servers in liquid-tight casings. The dielectric coolant is circulated inside or pumped through each server to collect heat from the components. The heated fluid is circulated to a heat exchanger in the rack where it is either circulated directly outside the building to a cooling tower or to a heat exchanger or cooled directly at the rack with a facility coolant infrastructure. The main advantage of this approach is that servers are mounted in self contained vessels that can be replaced in the rack without accessing the fluid. A disadvantage is that not all hardware can be used as the vendor defines the hardware specs of the sealed servers.

Fire hazards

Some hydrocarbon based immersion cooling fluids provide a fire hazard as they have a

fire point The fire point of a fuel is the lowest temperature at which the vapour of that fuel will continue to burn for at least five seconds after ignition by an open flame of standard dimension. At the flash point, a lower temperature, a substance will ig ...

Alternate use cases for Immersion Cooling

Domestic or process heating

In the last few years immersion cooling in particular for bitcoin mining has become a popular method to generate usable heat. In cold climates a single ASIC miner can provide ultra high efficiency electric heat conversion sufficient to heat an entire home. Immersion cooling offered a means to silently convert the waste heat from the mining operation to heat water, melt snow, power in floor heating, heat hot tubs and pools, shops, outbuildings, sheds and greenhouses. There is a compelling case to combine bitcoin mining operations with indoor vertical farms and traditional greenhouses to offset or eliminate the heating cost of the facilities. Indoor and outdoor recreation facilities both public and private can also benefit from the free waste heat. There are some companies which provide some computing based heating for residential and commercial operations.

References

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