Recycling Waste Polyethylene Materials To Useful Products Via Pyrolysis

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Abstract

Recycling of polyethylene waste to useful product is a way to reduce environmental problems caused by polymeric waste accumulation generated from day-to-day applications of polymer materials such packaging and construction. The recycling of polymeric waste helps to conserve natural resource because the most of polymer materials are made from oil and gas. This paper reviews the recent progress on recycling of polymeric waste form some traditional polymers and their systems (blends and composites) such as polyethylene (PE), polypropylene (PP), and polystyrene (PS), and introduces the mechanical and chemical recycling concepts. In addition, the effect of mechanical recycling on properties including the mechanical, thermal, rheological and processing properties of the recycled materials is Highlighted in the present paper.

Chapter One

Introduction

1.1 Background of Study

Recycling is a process of changing waste materials into new products to prevent waste of potentially useful materials, reduce the consumption of fresh raw materials, energy usage, water and air pollution (from incineration), and lower greenhouse gas emissions as compared to plastic production. Recycling is a key component of modern waste reduction and is the third component of the “Reduce, Reuse and Recycle” waste hierarchy (lajeunesse, sara 2004).

The rate of consumption of plastic materials in the world is greatly expanding, more waste plastics are generated. In recent years, their generation amount in Korea becomes about four million per year, according to data from the National Institute of Environmental Research (Lajeunesse, Sara 2004). The disposal of waste plastic is mostly achieved by conventional ways such as landfill or incineration. However, these methods have a problem of a social resistance due to the air pollution, soil contamination, and the economical resistance caused by an increase of space and disposal cost. Thus, the recycling of plastic wastes as a cheap source of raw materials has become a predominant subject over all countries (Roach, John 2003).

The development of technologies acceptable from the environmental and economical fields is one of the most important key factors. (Roach, John.2003). Plastic materials used for food storage, visible in all supermarkets, preserves freshness and flavor due to the ability to seal out contaminants. Polyethylene materials are useful over a wide temperature range, from frozen foods to microwavable packages1. Due to these benefits, plastics have become widely used. (lajeunesse, sara 2004).

Polyethylene plastic bags are petroleum-based so the manufacturing process releases harmful pollutants into the atmosphere. Some speculate that these emissions and other smog-related types of pollution accumulate over time in the atmosphere.

Countries and large corporations are beginning to realize the threat that these plastic bags pose to our planet. Many are proposing or have already enacted laws and taxes to decrease the use of polyethylene plastic bags. Many grocery stores are even rewarding customers for bringing reusable grocery bags as an alternative to these polyethylene plastic bags. Customers choosing not to use alternatives to plastic bags either find the alternatives are inconvenient or are simply unaware of the problem at hand.

Polyethylene recycling bags are currently being used all over the world but there is currently no environmentally friendly way to dispose of them. Recycling Waste Polyethylene Materials

1.2 Aim of the Study

The aim is to obtain useful materials by recycling waste polyethylene materials via pyrolysis.

1.3 Objectives of the Study

The objectives of this work are:-

  1. To collect the polyethylene waste materials (discarded water sachets and plastic bottles e.tc.).
  2. To carry out thermal pyrolysis of the materials at a temperature of 350oC – 400oC
  3. To analyze each residue for toxic metals
  4. To use ‘fresh’ and ‘spent’ FCC catalyst within the range of 350oC – 400oC
  5. To monitor the quantity of fuel gases and hydrocarbon liquids evolved.

1.4 Significance of the Study

The significance studies of the recycling polyethylene waste materials via pyrolysis are :-

  • It helps in prevent waste pollutants from an environment.
  • The recycling of polyethylene waste help in an industrial production of plastic and other polymer products, such as sachet water, plastic bottles, rubber paint etc as sources of raw materials to produce other useful products from those polyethylene waste materials.
  • It serve as an economics important to the society or nations.
  • Recycling is a dynamic process that restores the life of a material after used.
  • The recycling of polyethylene waste Materials to useful products appear interwoven with our consuming society where it would be hard to imagine a modern society today without plastics which have found amyriad of uses in fields as diverse as household appliances, packaging, construction, medicine, electronics, and automotive and aerospace components. Recycling Waste Polyethylene Materials
  • It helps to convert some polymer into paraffins and olefins

1.5 Scope of the Study

The research is restricted to the polyethylene waste products, arising specifically from High Density polyethylene (HDPE) polyethylene and LDPE. No attempt is made to suggest new production processes. The study does not include investigation of alternative materials. Recycling Waste Polyethylene Materials