Design of the Temperature Data Acquisition Terminal for Cable on Embedded Real-Time Operation System;

Design of electric energy acquisition terminal testing system of the power plants and stations

One integrated energy self-motion gathering automatizationly system is made up of home site system, collection terminal and ammeters.

Influnce of stucture shape and rubber property on 220 kV cable terminal stress cone;

Optimization of material and structure parameters in cable terminal based on response surface methodology;

Numerical simulation analysis of 220 kV cable terminal stress cone in force field;

Development in the design of HV cable termination;

The use of prefabricated rubber stress cone in high voltage cross-linking power cable termination was presented.

Further simulation was conducted for examining the effects of a replacement of linear SCT by nonlinear one in an optimized cable termination e.

Electric-thermal field analysis in cable terminations equipped with nonlinear stress control tubes;

Nonlinear electric field numerical analysis in cable terminations under impulse voltage;

The result reveals that the stress control tube comˉprising a composite structure of the nonlinear resistive and capacitive material shows the best performance in improving electric field distributions in cable terminations.