A Method of Large-Scale Resource Utilization of Algae—Eutrophic Waste from Lake Chao, China: Preparation and Performance Optimization of Composite Packaging Materials

A Method of Large-Scale Resource Utilization of Algae—Eutrophic Waste from Lake Chao, China: Preparation and Performance Optimization of Composite Packaging Materials

In order to realize the resource utilization of bloom algae from Lake Chao, this study presents the use of fresh algae to improve the mechanical and biological properties of low-density polyethylene (LDPE). In this study, the algae and LDPE were used as raw materials, maleic anhydride grafted polyet...

Full description

Bibliographic Details
Main Authors: Bingbing Zhao, Yan Fang, Kang Wu, Fayu Zhang, Jiaquan Wang
Format: Article
Language:English
Published: MDPI AG 2019-11-01
Series:Sustainability
Subjects:
fresh algae
packing material
response surface methodology
degradation performance
Online Access:https://www.mdpi.com/2071-1050/11/22/6462
id doaj-a688d0f6837d465cb27dc589868e69d3
record_format Article
spelling doaj-a688d0f6837d465cb27dc589868e69d32020-11-24T21:56:15ZengMDPI AGSustainability2071-10502019-11-011122646210.3390/su11226462su11226462A Method of Large-Scale Resource Utilization of Algae—Eutrophic Waste from Lake Chao, China: Preparation and Performance Optimization of Composite Packaging MaterialsBingbing Zhao0Yan Fang1Kang Wu2Fayu Zhang3Jiaquan Wang4College of Civil Engineering, Hefei University of Technology, Hefei 230009, ChinaSchool of Resources and Environmental Engineering, Hefei University of Technology, Hefei 230009, ChinaSchool of Resources and Environmental Engineering, Hefei University of Technology, Hefei 230009, ChinaSchool of Resources and Environmental Engineering, Hefei University of Technology, Hefei 230009, ChinaCollege of Civil Engineering, Hefei University of Technology, Hefei 230009, ChinaIn order to realize the resource utilization of bloom algae from Lake Chao, this study presents the use of fresh algae to improve the mechanical and biological properties of low-density polyethylene (LDPE). In this study, the algae and LDPE were used as raw materials, maleic anhydride grafted polyethylene (PE-g-MAH), polyethylene wax (PE-wax) and white oil, and glycerin were used as the compatibilizer, lubricant, and plasticizer, respectively. The single factor experiments were conducted with these three individual factors, and the response surface methodology technique was used to optimize the process conditions. In the single factor experiments, the mechanical properties of the composites increased with additions of PE-g-MAH, PE-wax/white oil, and glycerin. Both flexural strength and flexural modulus were maximized to optimize the preparation conditions. The optimum preparation conditions were found as follows: algae powder of 15.00 wt%, LDPE of 85.00 wt%, PE-g-MAH of 4.00 wt%, lubricant of 2.67 wt%, and glycerin of 3.00 wt%. This resulted in 11.60 MPa of tensile strength, 9.95 MPa of flexural strength, and 241.00 MPa of flexural modulus. The mechanical properties of composites were greatly improved compared with the absence of additives. In addition, compared with LDPE resin, the degradability of the composite was improved, and the weight loss rate was 7.73% after 6 months. The results recommended that the composites of the algae from Lake Chao and LDPE resin could be a useful material in the packaging field. Generally, the prepared composite particles can be used to produce foam products, packaging bags, or hard packing boxes with special shapes. It is more environmentally friendly, and more able to meet the challenges of sustainable development.https://www.mdpi.com/2071-1050/11/22/6462fresh algaepacking materialresponse surface methodologydegradation performance
collection DOAJ
language English
format Article
sources DOAJ
author Bingbing Zhao
Yan Fang
Kang Wu
Fayu Zhang
Jiaquan Wang
spellingShingle Bingbing Zhao
Yan Fang
Kang Wu
Fayu Zhang
Jiaquan Wang
A Method of Large-Scale Resource Utilization of Algae—Eutrophic Waste from Lake Chao, China: Preparation and Performance Optimization of Composite Packaging Materials
Sustainability
fresh algae
packing material
response surface methodology
degradation performance
author_facet Bingbing Zhao
Yan Fang
Kang Wu
Fayu Zhang
Jiaquan Wang
author_sort Bingbing Zhao
title A Method of Large-Scale Resource Utilization of Algae—Eutrophic Waste from Lake Chao, China: Preparation and Performance Optimization of Composite Packaging Materials
title_short A Method of Large-Scale Resource Utilization of Algae—Eutrophic Waste from Lake Chao, China: Preparation and Performance Optimization of Composite Packaging Materials
title_full A Method of Large-Scale Resource Utilization of Algae—Eutrophic Waste from Lake Chao, China: Preparation and Performance Optimization of Composite Packaging Materials
title_fullStr A Method of Large-Scale Resource Utilization of Algae—Eutrophic Waste from Lake Chao, China: Preparation and Performance Optimization of Composite Packaging Materials
title_full_unstemmed A Method of Large-Scale Resource Utilization of Algae—Eutrophic Waste from Lake Chao, China: Preparation and Performance Optimization of Composite Packaging Materials
title_sort method of large-scale resource utilization of algae—eutrophic waste from lake chao, china: preparation and performance optimization of composite packaging materials
publisher MDPI AG
series Sustainability
issn 2071-1050
publishDate 2019-11-01
description In order to realize the resource utilization of bloom algae from Lake Chao, this study presents the use of fresh algae to improve the mechanical and biological properties of low-density polyethylene (LDPE). In this study, the algae and LDPE were used as raw materials, maleic anhydride grafted polyethylene (PE-g-MAH), polyethylene wax (PE-wax) and white oil, and glycerin were used as the compatibilizer, lubricant, and plasticizer, respectively. The single factor experiments were conducted with these three individual factors, and the response surface methodology technique was used to optimize the process conditions. In the single factor experiments, the mechanical properties of the composites increased with additions of PE-g-MAH, PE-wax/white oil, and glycerin. Both flexural strength and flexural modulus were maximized to optimize the preparation conditions. The optimum preparation conditions were found as follows: algae powder of 15.00 wt%, LDPE of 85.00 wt%, PE-g-MAH of 4.00 wt%, lubricant of 2.67 wt%, and glycerin of 3.00 wt%. This resulted in 11.60 MPa of tensile strength, 9.95 MPa of flexural strength, and 241.00 MPa of flexural modulus. The mechanical properties of composites were greatly improved compared with the absence of additives. In addition, compared with LDPE resin, the degradability of the composite was improved, and the weight loss rate was 7.73% after 6 months. The results recommended that the composites of the algae from Lake Chao and LDPE resin could be a useful material in the packaging field. Generally, the prepared composite particles can be used to produce foam products, packaging bags, or hard packing boxes with special shapes. It is more environmentally friendly, and more able to meet the challenges of sustainable development.
topic fresh algae
packing material
response surface methodology
degradation performance
url https://www.mdpi.com/2071-1050/11/22/6462
work_keys_str_mv AT bingbingzhao amethodoflargescaleresourceutilizationofalgaeeutrophicwastefromlakechaochinapreparationandperformanceoptimizationofcompositepackagingmaterials
AT yanfang amethodoflargescaleresourceutilizationofalgaeeutrophicwastefromlakechaochinapreparationandperformanceoptimizationofcompositepackagingmaterials
AT kangwu amethodoflargescaleresourceutilizationofalgaeeutrophicwastefromlakechaochinapreparationandperformanceoptimizationofcompositepackagingmaterials
AT fayuzhang amethodoflargescaleresourceutilizationofalgaeeutrophicwastefromlakechaochinapreparationandperformanceoptimizationofcompositepackagingmaterials
AT jiaquanwang amethodoflargescaleresourceutilizationofalgaeeutrophicwastefromlakechaochinapreparationandperformanceoptimizationofcompositepackagingmaterials
AT bingbingzhao methodoflargescaleresourceutilizationofalgaeeutrophicwastefromlakechaochinapreparationandperformanceoptimizationofcompositepackagingmaterials
AT yanfang methodoflargescaleresourceutilizationofalgaeeutrophicwastefromlakechaochinapreparationandperformanceoptimizationofcompositepackagingmaterials
AT kangwu methodoflargescaleresourceutilizationofalgaeeutrophicwastefromlakechaochinapreparationandperformanceoptimizationofcompositepackagingmaterials
AT fayuzhang methodoflargescaleresourceutilizationofalgaeeutrophicwastefromlakechaochinapreparationandperformanceoptimizationofcompositepackagingmaterials
AT jiaquanwang methodoflargescaleresourceutilizationofalgaeeutrophicwastefromlakechaochinapreparationandperformanceoptimizationofcompositepackagingmaterials
_version_ 1725859023664709632

Similar Items