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Power Backpack for Energy Harvesting and Reduced Load Impact

Ze Yang, Yiyong Yang, Fan Liu, Zhaozheng Wang, Zhaozheng Wang, Yinbo Li, Jiahao Qiu, Xuan Xiao, Zhiwei Li, Yijia Lu, Linhong Ji, Zhong Lin Wang, Zhong Lin Wang, Jia Cheng

2021ACS Nano77 citationsDOI

Abstract

Long-distance walking with heavy loads is often needed when going hiking or for field rescue, which is prone to cumulative fatigue. There is also a great need for labor-saving and biomechanical energy harvesting in daily life for extended security and communication needs. Here, we report a load-suspended backpack for harvesting the wasted energy of human motion based on a triboelectric nanogenerator (TENG). Two elastomers are incorporated into the backpack to decouple the synchronous movement of the load and the human body, which results in little or no extra accelerative force. With such a design, through theoretical analysis and field experiments, the backpack can realize a reduction of 28.75 % in the vertical oscillation of the load and 21.08 % in the vertical force on the wearer, respectively. Meanwhile, the mechanical-to-electric energy conversion efficiency is modeled and calculated to be 14.02 % under normal walking conditions. The designed backpack has the merits of labor-saving and shock absorption as well as electricity generation, which has the promising potential to be a power source for small-scale wearable and portable electronics, GPS systems, and other self-powered health care sensors.

Topics & Concepts

BackpackEnergy harvestingAutomotive engineeringTriboelectric effectElectricityNanogeneratorMechanical energyComputer scienceEnvironmental sciencePower (physics)SimulationElectrical engineeringVoltageMaterials scienceEngineeringPhysicsStructural engineeringQuantum mechanicsComposite materialAdvanced Sensor and Energy Harvesting MaterialsInnovative Energy Harvesting TechnologiesConducting polymers and applications
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