Energy storage heat dissipation and cooling equipment

How can thermal storage improve temperature uniformity?

This improvement is particularly beneficial for the purpose of cooling electronic equipment. Beyond simply improving temperature uniformity, coupling the oscillating heat pipe with thermal storage system was discovered to significantly boost the thermal capacity of the whole system.

Why is thermal dissipation important?

Enhancing the thermal dissipation capabilities of electronic devices serves to decrease energy utilization, thereby augmenting the energy efficiency of the entire system. This advancement not only contributes to prolonging the lifespan of the equipment but also aligns with the objective of sustainable energy consumption.

Why is instantaneous heat dissipation important?

It can degrade performance and cause irreversible damage, impacting the functionality and lifespan of electronic systems. Enhancing instantaneous heat dissipation within limited spaces is crucial for energy efficiency and system sustainability.

What is a thermal energy storage system (PCM)?

PCMs are integral to thermal energy storage systems, exploiting latent heat during phase transitions to enhance energy efficiency. Five distinct PCM types are listed in Table 1 based on their physical characteristics.

How does a thermal storage system work?

The thermal storage system employs PCMs to absorb and store heat under transient heating loads. The heat is then gradually released into the surrounding environment, effectively helping to maintain a steady and consistent temperature in electronics .

How do phase change materials assist heat dissipation strategies?

Phase change materials assisted heat dissipation strategies are provided. Passive and active methods for heat storage performance enhancement are summarized. Stabilized temperatures during transient thermal peaks with latent heat storage. The challenges and perspectives on future development priorities are guided.