Your search keyword '"Xianglan Ming"' showing total 3 results

1. Optimization of Processing Parameters to Increase Thermal Conductivity of Rice Straw Fiber Film

Author

Xianglan Ming, Haitao Chen, and Donghai Wang

Subjects

rice straw fiber film, response surface methodology, central composite design, mechanical strength, thermal conductivity, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Biodegradable mulching film (BMF) is a promising alternative to petroleum-based plastic mulching film. Thermal conductivity is an important quality factor of BMF that affects the heat transfer between ambient to soil and plant growth. The objective of this research was to enhance the thermal conductivity of fiber film through an environmentally friendly agent and optimized processing conditions. Response surface methodology (RSM) was used to optimize the processing conditions. With optimized process conditions of 70 g/m2 basis weight, 1.5% wet strength agent content, 0.5% neutral sizing agent content, 15% charcoal addition ratio, and 55 °SR beating degree, the films showed satisfactory thermal conductivity (0.0714 W/m·K) and high dry and wet tensile strengths (33.4 and 12.2 N). The addition of charcoal increased the thermal conductivity of the film by 34.31%. This promising result shows the biodegradable fiber film is able to increase soil temperature and meet the required temperature for crop growth.

Published

2019

2. Analysis and Optimization of Process Parameters of the Degradable Fiber Mulch Paper Made from Pineapple Leaf and Rice Straw by Response Surface Method.

Author

Xianglan Ming, Qichao Li, Jinlong Feng, and Wei Jiang

Subjects

*PINEAPPLE, *RICE straw, *WHEAT straw, *ORGANIC farming, *PROCESS optimization, *LEAF fibers, *MULCHING

Abstract

To improve the utilization rate of pineapple leaf and crop straw, and provide technical support for making biodegradable fiber mulch paper through organic cultivation, the process and properties of the degradable fiber mulch paper made from pineapple leaf and rice straw were studied. The degradable fiber mulch paper was prepared as a hybrid composite in which pineapple leaf fiber and rice straw fiber were used as raw materials, and environmentally friendly agents were added. A four-factor five-level quadratic orthogonal rotation central composite design of the response surface method was employed. The beating degree of pineapple leaf fiber, basis weight, addition ratio of pineapple leaf fiber, and wet strength agent content were process parameters; dry tension strength, wet tension strength, and bursting strength were objective functions. The optimal technology parameters of pineapple leaf and rice straw fiber mulch paper were 70 to 90 g/m² basis weight of pineapple leaf fiber, 17% to 25% addition ratio of pineapple leaf fiber, 55 °SR beating degree, and 1.5% wet strength agent content. According to the tensile strength and bursting strength standards, the degradable fiber mulch paper made from pineapple leaf and rice straw was feasible. The results provide theoretical basis and technical support to use pineapple leaves and rice straw to make degradable mulch paper. [ABSTRACT FROM AUTHOR]

Published

2021

3. Optimization of Processing Parameters to Increase Thermal Conductivity of Rice Straw Fiber Film

Author

Donghai Wang, Haitao Chen, and Xianglan Ming

Subjects

Materials science, Central composite design, 02 engineering and technology, lcsh:Technology, 01 natural sciences, response surface methodology, lcsh:Chemistry, Thermal conductivity, Wet strength, Ultimate tensile strength, thermal conductivity, General Materials Science, Fiber, Response surface methodology, Composite material, central composite design, lcsh:QH301-705.5, Instrumentation, Fluid Flow and Transfer Processes, lcsh:T, 010405 organic chemistry, Process Chemistry and Technology, General Engineering, mechanical strength, 021001 nanoscience & nanotechnology, Environmentally friendly, lcsh:QC1-999, 0104 chemical sciences, Computer Science Applications, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, Heat transfer, lcsh:Engineering (General). Civil engineering (General), 0210 nano-technology, lcsh:Physics, rice straw fiber film

Abstract

Biodegradable mulching film (BMF) is a promising alternative to petroleum-based plastic mulching film. Thermal conductivity is an important quality factor of BMF that affects the heat transfer between ambient to soil and plant growth. The objective of this research was to enhance the thermal conductivity of fiber film through an environmentally friendly agent and optimized processing conditions. Response surface methodology (RSM) was used to optimize the processing conditions. With optimized process conditions of 70 g/m2 basis weight, 1.5% wet strength agent content, 0.5% neutral sizing agent content, 15% charcoal addition ratio, and 55 &deg, SR beating degree, the films showed satisfactory thermal conductivity (0.0714 W/m&middot, K) and high dry and wet tensile strengths (33.4 and 12.2 N). The addition of charcoal increased the thermal conductivity of the film by 34.31%. This promising result shows the biodegradable fiber film is able to increase soil temperature and meet the required temperature for crop growth.

Published

2019