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How to Analyze a Document: Online Article
Bio-renewable plastics from natural resources to reduce pollution
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Mon, 22 Nov 2010 16:05:00 +1100 By Deakin Research Communications
The earth is an indispensable resource.
We rely on it for food, clothing - in fact for the very life that we can all too easily take for granted.
Sadly because of pollution we have been slowly destroying our planet. A major contributor to that pollution is non-biodegradable plastic, the detrimental impact of which is compounded
because its manufacture uses so much of another finite resource, petroleum. But all is not lost.
Recently, significant efforts have been made by the Polymers Research Group that is based in Deakin University’s Waurn Ponds campus to create sustainable alternatives to plastic that are both biodegradable and use renewable.
Talented young early career researcher Nishar Hameed and his supervisor Professor Qipeng Guo have made
considerable progress towards developing novel, natural polymer blended materials via what they are calling the “green processing route”.
“We have developed novel biodegradable polymeric materials by taking advantage of the ionic liquid green solvent concept,” Nishar said.
“We use natural polymers such as cellulose, wool, chitin and their derivatives because they are all renewable,
biodegradable, and biocompatible.” These make use of the substantial stock of sustainable materials that exist in Australia, such as cellulose from plants
(agriculture and forestry), the huge resource of chitin raw materials from crab, prawns and shrimp shells (fishing industry) and the development of materials from wool keratin (wool industry).
“At the moment most of these natural polymers are processed using large quantities of organic or hydrocarbon solvents that are toxic.
“The harmful effects of these solvents and the often hazardous by-products on human health and the environment,
combined with their volatility and flammability, have led to increasing pressure to minimize their use. “Since all these materials used in our study are biodegradable, it is expected we will be able to greatly reduce the
pollution from the plastics industry.
E
Created by:
Sara Lehman
McKee Alt. Center, DMPS
Kala Miller
Cardinal School District
Background Information: Bioplastics are a
relatively new technology that uses natural,
renewable materials. “Going green” means to
reduce the waste put into the environment and
focuses more on using safer products for our
future. Recycling products allows us to use
them again, contributing to the “green”
movement.
Document Description: This is an
online article from a University
explaining the purpose for
biorenewable plastics. It is written to
inform the general public about the
benefits of bioplastics as well as
research being done in the field.
Analyzing the Source: Deakin University Australia Worldly is potentially reputable, but not necessarily relevant to our cause in the United States. Later in the article, resources in Australia are mentioned but that may not apply to our resources in the U.S.
Interpreting Relevance: Make sure to look at the date to determine relevance. This article may not be from yesterday, but is recent enough to be considered current. However, new technologies and ideas may have changed since the article was written.
Summarizing: This article discusses the need for bioplastics, mentioning the deteriorating status of the Earth, but it also states that the research is still in the process of taking shape. While this article supports bioplastics, it does not give us enough information to know how possible it is.
Vocabulary in Context: Biodegradable: capable of
decaying through the action of living organisms
Polymers: plastics Sustainable: able to be
maintained or kept going; allow for continual reuse
Biorenewable: product based from an organic, renewable source
Vocabulary is essential to understanding to content in the article. Major information will be lost without this understanding.
RESOURCES AND AKNOWLEDGEMENT:
We thank the National Science Foundation and Iowa State University’s Center for Biorenewable Chemicals for funding this work
(EPSCoR: NSF award ESP - 1101284).