Litcius/Paper detail

Enhancing Smartphone Circuit Cooling: A Computational Study of PCM Integration

Anant Sidhappa Kurhade, Gulab Dattrao Siraskar, Parimal Sharad Bhambare, Dinesh Keloth Kaithari, Swati Mukesh Dixit, Shital Yashwant Waware

2024Journal of Advanced Research in Numerical Heat Transfer24 citationsDOIOpen Access PDF

Abstract

Modern smartphones are used for a wide range of demanding tasks, such as gaming, high-resolution photography, and internet browsing, which significantly increases their power consumption. This excessive power use leads to higher heat generation within the device, typically between 2 and 6 watts. To manage this heat and maintain optimal performance, smartphones employ various cooling techniques. A new mobile cooling method could use innovative approaches like advanced phase change materials, liquid cooling systems, or emerging technologies such as thermoelectric and microfluidic cooling. This paper proposes a new cooling method using phase change materials. This approach leverages the material's ability to absorb heat by transitioning from a solid to a liquid state and vicecersa. This helps keep the device's temperature below 45 degrees Celsius. In mid-range smartphones, cooling methods such as natural convection, indirect heat-pipe cooling, and forced convection are commonly used, but these methods often fail under high-power usage conditions.

Topics & Concepts

Computer scienceHeat Transfer and OptimizationGreen IT and SustainabilityBuilding Energy and Comfort Optimization