Lefeng Gu scite author profile

Lefeng Gu

4Publications

7Citation Statements Received

32Citation Statements Given

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Affiliations

Tsinghua University, China Jiliang University, Ningbo Institute of Industrial Technology

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Research of fuel temperature control in fuel pipeline of diesel engine using positive temperature coefficient material

Sun

et al. 2016

Advances in Mechanical Engineering

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As fuel temperature increases, both its viscosity and surface tension decrease, and this is helpful to improve fuel atomization and then better combustion and emission performances of engine. Based on the self-regulated temperature property of positive temperature coefficient material, this article used a positive temperature coefficient material as electric heating element to heat diesel fuel in fuel pipeline of diesel engine. A kind of BaTiO 3 -based positive temperature coefficient material, with the Curie temperature of 230°C and rated voltage of 24 V, was developed, and its micrograph and element compositions were also analyzed. By the fuel pipeline wrapped in six positive temperature coefficient ceramics, its resistivity-temperature and heating characteristics were tested on a fuel pump bench. The experiments showed that in this installation, the surface temperature of six positive temperature coefficient ceramics rose to the equilibrium temperature only for 100 s at rated voltage. In rated power supply for six positive temperature coefficient ceramics, the temperature of injection fuel improved for 21°C-27°C within 100 s, and then could keep constant. Using positive temperature coefficient material to heat diesel in fuel pipeline of diesel engine, the injection mass per cycle had little change, approximately 0.3%/°C. This study provides a beneficial reference for improving atomization of high-viscosity liquids by employing positive temperature coefficient material without any control methods.

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A Two-Step Self-calibration Method with Portable Measurement Devices for Industrial Robots Based on POE Formula

Yang

Fang

et al. 2019

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Dynamics modelling of a mobile manipulator with powered castor wheels

Jia

Yang

et al. 2017

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Training Innovation Ability for Mechatronics Undergraduates Based on TRIZ Theory

2011

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Lefeng Gu

Research of fuel temperature control in fuel pipeline of diesel engine using positive temperature coefficient material

A Two-Step Self-calibration Method with Portable Measurement Devices for Industrial Robots Based on POE Formula

Dynamics modelling of a mobile manipulator with powered castor wheels

Training Innovation Ability for Mechatronics Undergraduates Based on TRIZ Theory

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