Li Kong scite author profile

Li Kong

5Publications

32Citation Statements Received

69Citation Statements Given

How they've been cited

How they cite others

175

Affiliations

Harbin Engineering University, Ningbo University

Publications

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Modeling of an Integrated Thermoelectric Generation–Cooling System for Thermoelectric Cooler Waste Heat Recovery

Zhu

Kong

et al. 2020

Energies

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This paper focuses on the problem of thermoelectric cooler waste heat recovery and utilization, and proposes taking the waste heat together with the original heat source as the input heat source of the integrated thermoelectric generation–cooling system. By establishing an analytic model of this integrated thermoelectric generation–cooling system, the steady-state and transient thermal effects of this system are analyzed. The steady-state analysis results show that the thermoelectric generator’s actual heat source is about 20% larger than the intrinsic heat source. The transient analysis results prove that the current of thermoelectric power generation and the cold end temperature of the system show a nonlinear change rate with time. The cold end temperature of the system has a maximum value. Under different intrinsic heat sources, this maximum value can be reached between 1 s and 2.5 s.

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A Novel Structure for Heat Transfer Enhancement in Phase Change Composite: Rolled Graphene Film Embedded in Graphene Foam

Kong

Wang

et al. 2019

ACS Appl. Energy Mater.

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Phase change material (PCM) is an excellent heat storage material which can absorb a large amount of heat in the form of latent heat and can be used to improve the power generation effect of thermoelectric generator (TEG) in a fluctuating thermal environment. The thermal conductivity of PCM plays a key role. In this paper, graphene films as thermal conductive fillers were introduced into graphene foams through the ice-templated method. The composite structure can increase the thermal conductivity of paraffin by 44 times to 11.594 W/mK, and the corresponding mass fraction is only 1.14 wt %. On the other hand, the influence of thermal conductivity of PCM on TEG under periodic heat flux condition was analyzed through simulation. The results indicate that increasing thermal conductivity helps the PCM to better play a buffering effect, and significantly reduce the fluctuation of the power generation voltage.

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Analysis of temperature control effect of composite phase change structure used in thermoelectric conversion system

Wang

Kong

et al. 2020

Applied Thermal Engineering

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Thermal Stress Analysis of a Segmented Thermoelectric Generator under a Pulsed Heat Source

Kong

Zhu

et al. 2020

Journal of Elec Materi

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Vertical Nickel–Iron layered double hydroxide nanosheets grown on hills-like nickel framework for efficient water oxidation and splitting

Yan

Kong

Zhang

et al. 2020

International Journal of Hydrogen Energy

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Li Kong

Modeling of an Integrated Thermoelectric Generation–Cooling System for Thermoelectric Cooler Waste Heat Recovery

A Novel Structure for Heat Transfer Enhancement in Phase Change Composite: Rolled Graphene Film Embedded in Graphene Foam

Analysis of temperature control effect of composite phase change structure used in thermoelectric conversion system

Thermal Stress Analysis of a Segmented Thermoelectric Generator under a Pulsed Heat Source

Vertical Nickel–Iron layered double hydroxide nanosheets grown on hills-like nickel framework for efficient water oxidation and splitting

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