A STUDY TO ASSESS THE EFFECTIVENESS OF STRUCTURED
TEACHING PROGRAMME ON HAZARDS OF PLASTIC WASTE AND ITS
SAFE DISPOSAL AMONG A SELECTED RURAL COMMUNITY AREA AT
BANGALORE.
M.Sc. Nursing Dissertation Protocol submitted to
Rajiv Gandhi University of Health Sciences, Karnataka, Bangalore.
By
Mr. DEEPAK.K.NAIR
M.Sc NURSING 1ST YEAR
2011-2013
Under the Guidance of
HOD, Department of Community Health Nursing
Nightingale College of Nursing
Guruvana Devara Mutt,
Near Binniston Garden
Bangalore -23
1
RAJIVGANDHI UNIVERSITY OF THE HEALTH SCIENCES,
KARNATAKA, BANGALORE
ANNEXURE – II
PROFORMA FOR REGISTRATION OF SUBJECT FOR DISSERTATION 1. NAME OF THE CANDIDATE
AND ADDRESS
Mr.DEPAK.K.NAIR
1st YEAR M.Sc NURSING
NIGHTINGALE COLLEGE OF NURSING,
BANGALORE-23
2 NAME OF THE INSTITUTION NIGHTINGALE COLLEGE OF NURING GURUVANNA DEVARA MUTT,NEAR BINNISTON GARDEN, MAGADI ROADBANGALORE-23
3 COURSE OF THE STUDY AND
SUBJECT
M.Sc. NURSING
COMMUNITY HEALTH NURSING
4 DATE OF ADMISSION TO
COURSE
04/05/2011
5 TITLE OF THE STUDY
“A STUDY TO ASSESS THE EFFECTIVENESS OF STRUCTURED
TEACHING PROGRAMME ON HAZARDS OF PLASTIC WASTE
AND ITS SAFE DISPOSAL AMONG A SELECTED RURAL
COMMUNITY AREA AT BANGALORE”.
2
6.0 BRIEF RESUME OF THE INTENDED WORK:
INTRODUCTION
The word “plastic” comes from the Greek word “plastikos”
meaning “to form”. Plastics is any of a group of synthetic or natural organic materials that
may be shaped when soft and then hardened, including many types of resins,
resinoids,polymers, cellulose derivatives, casein materials, and proteins: used in place of
other materials, as glass, wood, and metals, in construction and decoration, for making
many articles, as coatings, and, drawn into filaments, for weaving. The first man-made
plastic was created by Alexander Parkes who publicly demonstrated it at the 1862 Great
International Exhibition in London. The material called Parkesine was an organic material
derived from cellulose that once heated could be molded, and retained its shape when
cooled. Celluloid is derived from cellulose and alcoholised camphor. John Wesley Hyatt
invented celluloid as a substitute for the ivory in billiard balls in 1868. He first tried using
collodion a natural substance, after spilling a bottle of it and discovering that the material
dried into a tough and flexible film. However, the material was not strong enough to be
used as a billiard ball, until the addition of camphor, a derivative of the laurel tree. The
new celluloid could be molded with heat and pressure into a durable shape. Almost all
plastics are made from petroleum, except a few experimental resins derived from corn and
other organic substances. Plastics are polymers, very long chain molecules that consist of
subunits (monomers) linked together by chemical bonds The monomers of petrochemical
plastics are inorganic materials (such as styrene) and are not biodegradable. Plastic has
many properties which has made it a raw material of choice for Manufactures of plastic
Bags and packing materials. Cost of production, light weight, strength, easy process of
manufacture. There is nothing wrong with plastic as a material. Man has simply not put 3
the plastic to the right use/ or using it without taking proper care of other related norms of
usage.1
The hazards plastics pose are numerous. The land gets
littered by plastic bag garbage presenting an ugly and unhygienic seen. The "Throw away
culture" results in these bags finding their way in to the city drainage system, the resulting
blockage cases inconvenience, difficult in maintaining the drainage with increased cost,
creates unhygienic environment resulting in health hazard and spreading of water borne
diseases. This littering also reduces rate of rain water percolating, resulting in lowering of
already low water levels in our cities. The soil fertility deteriorates as the plastic bags
form part of manure remains in the soil for years. It has been observed that the animals
eating the bags sometimes die. Plastic goes into the ocean which is already a plastic
infested body of water. Fish and other marine species in the water ways, misunderstanding
plastic garbage as food items swallow them and die. More than a 100 million tonnes of
plastic is produced world-wide each year. Though plastics have opened the way for a
plethora of new inventions and devices it has also ended up clogging the drains and
becoming a health hazard. Many countries, including India, are trying to increase the
amount of plastic that is recycled. But commercial interests create hindrance for effective
legislation to remove plastics from goods where they can threaten public health. Also
there is a clear trend of shipping off the plastic waste of developed countries to under
developed and developing countries. India imported 7,841.8 metric tonnes of plastic waste
from the US in the first half of 2004. India is the fourth highest Asian importer of plastic
waste behind Hong Kong, Philippines, Indonesia. Average Indian uses one kilogram (kg)
of plastics per year, the world annual average is a alarming 18 kg. But too many do it as
our cities have huge population. The country yet to take a serious view of the issue and
have a uniform nation-wide law for indiscreet disposals of plastic bags. People should be
4
educated on the proper ways of plastic bag usage and the disposal.
These are some of the hazards associated with using plastic:
Polyethylene, contained in plastic articles including shopping bags, disposable
bottles and glasses, chewing gum and toys, is believed to be carcinogenic (cancer
causing).
Some plastic water bottles contain Bisphenol A, a compound that is believed to
cause cancer, impair the immune system lead to early puberty and trigger
development of obesity and diabetes.
Polystyrene, the form of plastic used to make styrofoam articles such as disposable
cups and plates, it is believed, enters the body with food and accumulates in fat
tissues. It can also cause irritation in the eyes, nose and throat.
Tetrafluoro-ethelyne, the plastic compound used to manufacture non-stick cooking
ware, can irritate the eyes and nose and cause respiratory problems
Acrylic, used in clothes, contact lenses, dentures, adhesives, articles used to
prepare food, diapers, sanitary napkins, and other products, can cause vomiting,
nausea, diarrhea, respiratory difficulties and headaches.
Polyvinyl chloride (PVC), a form of plastic used in packaging, containers, utility
items and cosmetics has been linked to onset of cancer and birth and genetic
conditions. It can also cause bronchitis, skin disease, deafness and vision
problems, and digestion and liver related problems.
Phthalates, present in emulsions, inks, footwear and toys among other products, is
associated with hormonal disturbances, developmental issues, cancer, reduced
sperm count
The quantum of solid waste is ever increasing due to increase in population,
developmental activities, changes in life style, and socio-economic conditions,
5
Plastics waste is a significant portion of the total municipal solid waste (MSW ).
It is estimated that approximately 10 thousand tons per day (TPD) of plastics
waste is generated i.e. 9% of 1.20 lacs TPD of MSW in the country. The plastics
waste constitutes two major category of plastics; (i) Thermoplastics and (ii)
Thermo set plastics. Thermoplastics, constitutes 80% and thermo set constitutes
approximately 20% of total post-consumer plastics waste generated in India. The
Thermoplastics are recyclable plastics which include; Polyethylene Terephthalate
(PET), Low Density Poly Ethylene (LDPE), Poly Vinyal Choloride(PVC),
High Density Poly Ethylene (HDPE), Polypropylene(PP), Polystyrene (PS) etc.
However, thermo set plastics contains alkyd, epoxy, ester, melamine
formaldehyde, phenolic formaldehyde, silicon, urea formaldehyde, polyurethane,
metalized and multilayer plastics etc. On the one hand, all major types of plastics
are recyclable, meaning that technologies to recycle these materials have been
developed and are in use in some areas. Community recycling programs often
collect plastic bottles made from PET and HDPE , which, together represent
approximately 96 percent of all plastic bottles produced in the United States.
Although a growing number of communities have started to collect other types of
plastic containers, such as tubs, trays, lids, buckets and so on, opportunities to
recycle plastics vary widely. Recycling of plastics should be carried in such a
manner to minimize the pollution during the process and as a result to enhance the
efficiency of the process and conserve the energy. Plastics recycling technologies
have been historically divided into four general types -primary, secondary, tertiary
and quaternary. Primary recycling involves processing of a waste/scrap into a
product with characteristics similar to those of original product. Secondary sperm
count and infertility and weakened immunity. Secondary recycling involves
processing of waste/scrap plastics into materials that have characteristics different
6
6.1
from those of original plastics product. Tertiary recycling involves the production
of basic chemicals and fuels from plastics waste/scrap as part of the municipal
waste stream or as a segregated waste. Quaternary recycling retrieves the energy
content of waste/scrap plastics by burning / incineration. This process is not in use
in India.2
NEED FOR STUDY
Plastic is everywhere in today’s lifestyle. It’s used for packaging,
protecting, serving, and even disposing of all kinds of consumer goods. Through industrial
revolution mass production of goods started and plastic seemed to be a cheaper and
effective raw material. Today, every vital sector of the economy starting from agriculture
to packaging, automobile, building construction, communication or InfoTech has been
virtually revolutionised by the applications of plastics. Use of this nonbiodegradable
(according to recent studies, plastics can stay as long as 4500 years on earth) product is
growing rapidly and the problem is what to do with plastic-waste. Studies have linked the
improper disposal of plastic to problems as distant as breast cancer, reproductive problems
in humans and animals, genital abnormalities and much more. If a ban is put on the use of
plastics on emotional grounds, the real cost would be much higher, the inconvenience
much more, the chances of damage or contamination much greater. The risks to the family
health and safety would increase and, above all the environmental burden would be
manifold. Hence the question is not ‘Plastics vs No Plastics’ but it is more concerned with
the judicious use and re-use of plastic-waste. 3
India has witnessed a substantial growth in the consumption
of plastics and an increased production of plastic waste. Polyolefin’s account for the major 7
share of 60% in the total plastics consumption in India. Packaging is the major plastics
consuming sector, with 42% of the total consumption, followed by consumer products and
the construction industry. The relationship observed between plastic consumption and the
gross domestic product for several countries was used to estimate future
plastics consumption (master curve). Elasticities of the individual material growth with
respect to GDP were established for the past and for the next three decades estimated for
India thereby assuming a development comparable with that of Western Europe. On this
basis, the total plastics consumption is projected to grow by a factor of six between 2000
and 2030. The consumption of various end products is combined with their corresponding
lifetimes to calculate the total waste quantities. The weighted average lifetime of plastics
products was calculated as 8 years. Forty-seven percent of the total plastics waste
generated is currently recycled in India; this is much higher than the share of recycling in
most of the other countries. The recycling sector alone employs as many people as the
plastics processing sector, which employs about eight times more people than the plastics
manufacturing sector. Due to the increasing share of long-life products in the economy,
and consequently in the volume of waste generated, the share of recycling will decrease to
35% over the next three decades. The total waste available for disposal (excluding
recycling) will increase at least 10-fold up to the year 2030 from its current level of 1.3
million tones. Plastic causes serious damage to environment during its production
process and during its disposal process. So the only way to reduce the hazards of plastic
pollution is to reduce the use of plastic and thereby force a reduction in its production.
The major chemicals that go into the making of plastic are highly toxic and pose serious
threat to living beings of all species on earth. Some of the constituents of plastic such as
benzene and vinyl chloride are proved to cause cancer, and other gases and liquid
hydrocarbons spoil earth and air. The noxious substances emitted during the production of
plastic are synthetic chemicals like ethylene oxide, benzene and xylenes. Besides hitting
8
hard the ecosystem. which is already fragile, these chemicals can cause an array of
maladies ranging from birth defects to cancer, damage the nervous system and the
immune system and also adversely affect the blood and the kidneys. And, many of these
toxic substance are emitted during recycling of plastic too.4
No doubt that plastic waste is polluting the soil and killing innocent
animals who ingest unknowingly. however it definitely has many uses and instead of
banning it completely we need to create greater awareness. Strict action must be taken
against those found littering. One of the major culprits of this are the innumerable
roadside vendors selling various articles packed in plastic. More needs to be done to
recycle plastic waste for putting it to long term use We can avoid using plastic but cannot
banning completely so awareness of the harm people are causing to the environment by
their carelessness is only way to make a change. If every person took the initiative of
keeping the environment clean of all pollutants, our world would be a much healthier
place. The hazardous waste generated in the country per annum is estimated to be around
4.4 million tones. while as per the estimates of Organization for Economic Cooperation
and Development(OECD) derived from correlating hazardous waste generation and
economic activities, nearly five million tons of hazardous waste are being produced in the
country annually. This estimate of around 4.4 million MTA is based on the 18 categories
of wastes which appeared in the HWM Rules first published in 1989.Out of this, 38.3% is
recyclable, 4.3% is incinerable and the remaining 57.4% is disposable in secured landfills.
Twelve States of the country (Maharashtra, Gujarat, Tamil Nadu, Orissa, Madhya
Pradesh, Assam, Uttar Pradesh, West Bengal, Kerala, Andhra Pradesh, Karnataka and
Rajasthan) account for 97% of total hazardous waste generation. The top four waste
generating states are Maharashtra, Gujarat, Andhra Pradesh and Tamil Nadu. It is very
hard to dispose of used plastic. You can't throw them in the open. Disposed plastic will
affect the environment for many years to come. The burning of plastics produces
9
persistent organic pollutants (POPs) known as furans and dioxins. These pollutants
circulate globally and have been associated with adverse effects in humans, including
immune and enzyme disorders. They are classified as possible human carcinogens But
you should find a way to dispose the plastic that are already in use. The best and
most popular way to dispose of plastic without affecting the environment is to recycle it.
Plastic can be recycled any number of times. You can give your plastic bags to many
stores who will give it to recycling companies. The only problem with this method of
plastic disposal is that the various types of plastics have to be segregated before reusing
them5
The recent studies and statistics throws the light that
Plastic waste is an important problem in this contemporary epoch and more rural
community residents are affected mainly due to improper disposal methods and poor
knowledge among the community people regarding the disposal strategies..So the
investigator is very much interested in doing this topic.
6.2 REVIEW OF LITERATURE
INTRODUCTION
Review of literature is a key step in the research process.The typical purpose
of analyzing a review of existing literature is to generate questions and to identify what is
known and what is unknown about the topic.The major goals of review of literature are to
develop a strong knowledge base to carry out research and non research scholalarly
activity.
The review has been divided under the following headings:
10
(a) Studies related to environmental hazards and health issues due to plastic. (b) Studies related to disposal of plastic (c) Studies related to assess the knowledge and attitude of community people on safe
disposal of plastic wastes.
STUDIES RELATED TO ENVIRONMENTAL HAZARDS AND HEALTH
ISSUES DUE TO PLASTIC.
A survey on short-term adverse health effects in a community exposed
to a large polyvinylchloride plastics fire to representatives of each household who had
lived in an area evacuated during the fire. A time-series analysis was performed, 62% of
the individuals surveyed from the evacuation area reported no health concerns or
symptoms related to the fire. 38% of the residents reported symptoms, and less than 2% of
those surveyed reported that they sought medical attention for their health concerns. There
was no evidence of increased hospital admissions or emergency room use during and
immediately following the fire. No cases of chloracne were reported, and no deaths or
serious injuries occurred during the fire. Polyvinylchloride plastics recycling plants pose
potential health hazards to civilian populations. Public health authorities should be
prepared to assess population health status rapidly and to disseminate relevant health
information in a timely way during a crisis.6
A study conducted on environmental and health hazard ranking and
assessment of plastic polymers based on chemical composition, the environmental and
health hazards of chemicals used in 55 thermoplastic and thermosetting polymers were
identified and compiled. A hazard ranking model was developed for the hazard classes
and categories .The polymers that ranked as most hazardous are made of monomers
classified as mutagenic and/or carcinogenic. These belong to the polymer families of
polyurethanes, polyacrylonitriles , polyvinyl chloride, epoxy resins, and styrenic
11
copolymers. All have a large global annual production (1-37 million tonnes). A
considerable number of polymers (31 out of 55) are made of monomers that belong to the
two worst of the ranking model's five hazard levels, i.e. levels IV-V. The polymers that
are made of level IV monomers and have a large global annual production (1-5 million
tonnes) are phenol formaldehyde resins, unsaturated polyesters, polycarbonate,
polymethyl methacrylate, and urea-formaldehyde resins. This study has identified
hazardous substances used in polymer production for which the risks should be evaluated
for decisions on the need for risk reduction measures, substitution, or even phase out.7
A descriptive study on environmental implications of plastic debris in
marine settings - entanglement, ingestion, smothering, hangers-on, hitch-hiking and
alien invasions, Over the past five or six decades, contamination and pollution of the
world's enclosed seas, coastal waters and the wider open oceans by plastics and other
synthetic, non-biodegradable materials (generally known as 'marine debris') has been an
ever-increasing phenomenon. The sources of these polluting materials are both land- and
marine-based, their origins may be local or distant, and the environmental consequences
are many and varied. The more widely recognized problems are typically associated with
entanglement, ingestion, suffocation and general debilitation, and are often related to
stranding events and public perception. Among the less frequently recognized and
recorded problems are global hazards to shipping, fisheries and other maritime activities.
Today, there are rapidly developing research interests in the biota attracted to freely
floating (i.e. pelagic) marine debris, commonly known as 'hangers-on and hitch-hikers' as
well as material sinking to the sea floor despite being buoyant. Dispersal of aggressive
alien and invasive species by these mechanisms leads one to reflect on the possibilities
that ensuing invasions could endanger sensitive, or at-risk coastal environments (both
12
marine and terrestrial) far from their native habitats.8
A study conducted on Combustion products of plastics as indicators
for refuse burning in the atmosphere, Samples were collected in Concón, Chile, an area
frequently affected by wildfire incidents and garbage burning. Atmospheric samples from
various aerosol sampling programs are also presented as supportive data. The major
components of plastic extracts were even-carbon-chain n-alkenes’ (C16-C40), the
plasticizer di-2-ethylhexyl phthalate, and the antioxidants and lubricants/antiadhesives
Irganox 1076, Irgafos 168, and its oxidation product tris (2,4-di-tertbutylphenyl)
phosphate. Major compounds in smoke from burning plastics include the non-source-
specific n-alkanes (mainly even predominance), terephthalic acid, phthalates, and 4-
hydroxybenzoic acid, with minor amounts of polycyclic aromatic hydrocarbons (including
triphenylbenzenes) and tris(2,4-di-tert-butylphenyl) phosphate. 1,3 ,5-Triphenylbenzene
and tris (2,4-di-tert-butylphenyl)- phosphate were found in detectable amounts in
atmospheric samples where plastics and refuse were burned in open fires, and thus
propose these two compounds as specific tracers for the open-burning of plastics.9
A survey conducted on Health issues in plastics production and
processing. plastic components are essential in countless applications, the production of
plastic materials with applications is seemingly limitless. Given the size and diversity
of plastics-related employment, occupational health professionals are likely to be
involved in assessing health issues related to plastic manufacturing and processing. As
industrial and medical experience with these compounds has grown, so has the recognition
of a variety of potential health hazards. Health professionals need to be familiar with the
13
different sectors of this industry and the diverse materials and processes.10
A study conducted on Occupational skin hazards from synthetic plastics,
acrylates are now considered the fourth most common cause of contact sensitization due
to resins. Unpolymerized monomers of acrylic compounds are known to be responsible
for the contact allergy. Accelerators, inhibitors and catalysts, which are usually added to
the acrylates to promote the polymerization process, can also sensitize. Both allergic and
irritant contact dermatitis may be caused by exposure to epoxy or acrylic resins and their
additives. Contact urticaria, allergic or irritant airborne contact dermatitis caused by
volatile compounds, onychia and paronychia can also occur. From January of 1984 to
May of 1992 we detected 39 cases of occupational allergic contact dermatitis to epoxy
resin system substances and 11 cases of occupational contact sensitization to acrylic
compounds. In our experience, the electronics industry as well as paint and glue related
activities were the most important sources of epoxy sensitization. Dental materials and
anaerobic sealants were found to be the most frequent acrylate sensitizers.11
A study conducted on Consumer hazards of plastics, a large variety of
toxic sequellae have resulted from untoward exposures by many different routes: oral,
dermal, inhalation, and parenteral. Toxic change may result from the plastic itself,
migration of unbound components and additives, chemical decomposition or toxic
pyrolysis products. The type of damage may involve acute poisoning, chronic organ
damage, reproductive disorders, and carcinogenic, mutagenic and teratogenic episodes.
Typical examples for all routes are cited along with the activites of Canadian regulatory
agencies to reduce both the incidence and severity of plastic-induced disease.12
A descriptive study on occupational and environmental
14
health hazards in the plastics industry, these hazards are due to the monomers used to
make the various plastics, to unreacted monomer contained within the finished products,
and to the fillers, stabilizers, pigments, inhibitors, and initiators used in fabricating the
finished products. They run the gamut from angiosarcomas of the liver due to vinyl
chloride, to dermatitis and asthma-like reactions due to the initiators used with epoxy
resins.13
A study conducted on plastic Materials and Environmental
Externalities: Structural Causes and Corrective Policy, Several negative externalities
arising from the consumption and disposal of plastics materials include the aesthetic
damage created by landfills containing plastic waste, the impact to marine life of plastic
residuals, the hazardous emissions of plastic incineration, and the economic inefficiencies
created by the difficulty of plastic reutilization from recycling. The fundamental causes
for the presence of these externalities are explored, including the lack of incentives in
present legislation for the development of a recycling infrastructure and fluctuating market
conditions for recycled input materials. A corrective policy is then presented to internalize
the costs of recycling and to promote R&D activities into the development of efficient,
low-contaminant recycling facilities in the US.14
STUDIES RELATED TO DISPOSAL OF PLASTIC
A study conducted on plastic waste management in india, 60% of the
plastic-waste collected and segregated gets recycled back into materials for further
processing into consumer products, while the balance is left unutilized. Regulations and
legislations are being enforced in two States of India viz. Haryana and Himachal
pradesh, while a National Plastic Waste Management Council Task Force has been set up
by the Government of India, Ministry of Environment of Forests, with the association of
15
Department of Petroleum and Chemicals, Ministry of Urban Affairs, Municipal
Corporation of Delhi and various groups/associations of plastic manufacturers. Scope is
there for the recycling/management of plastic waste, as an `organised activity’ in India.
Plastic Waste Management has assumed great significance in view of the urbanisation
activities. Plastic waste generated by the polymer manufacturers at the production,
extrusion, quality control & lab. Testing etc., stages, as well as, by the consumers require
urgent disposal and recycling to avoid health hazards. Various strategies are being
devised to mitigate the impact of plastic waste in India.15
A study conducted on new perspectives in plastic biodegradation,
recycling has practically failed to provide a safe solution for disposal
of plastic waste (only 5% out of 1 trillion plastic bags, annually produced in the US alone,
are being recycled). Since the most utilized plastic is polyethylene (PE; ca. 140 million
tons/year), any reduction in the accumulation of PE waste alone would have a major
impact on the overall reduction of the plastic waste in the environment. Since PE is
considered to be practically inert, efforts were made to isolate unique microorganisms
capable of utilizing synthetic polymers. Recent data showed that biodegradation
of plastic waste with selected microbial strains became a viable solution16
A quantitative study conducted on the potential environmental gains
from recycling waste plastics: simulation of transferring recycling and recovery
technologies to Shenyang, China, in Shenyang, China various recycling/energy-
recovery technologies and the mechanical waste plastics recycling technology, which
produces concrete formwork boards (NF boards), has the greatest potential in terms of
reducing GHG emissions (1.66 kg CO(2)e/kg plastics), whereas the technology for the
16
production of refuse plastic fuel (RPF) has the greatest potential on saving fossil fuel
consumption (0.77 kg ce/kg-plastics). Additional benefits can be gained by applying
combined technologies that cascade the utilization of waste plastics. Moreover, the
development of clean energy in conjunction with the promotion of
new waste plastics recycling programs could contribute to additional reductions in GHG
emissions and fossil fuel consumption.17
A study on Guidelines for recycling of plastics conducted by the National
Environmental Engineering Research Institute (NEERI) for the Brihan Mumbai Municipal
Corporation, which handles more than 5,500 metric tonnes MSW per day shows that
plastic waste is 0.75 %. In Europe and U.S.A, plastic waste makes up 8 % of total MSW.
The rest is made up of organic materials (33%), paper and paperboards (30%), glass and
metals (16%) and others (13%).The methods of recycling and the technology used for the
same at present are quite outmoded and are in need of up gradation. It has also been
observed that some of industries even recycle the plastic waste/scrap which is totally
unhygienic and such is a health hazard for persons who use items made from such plastics
and even used at times for packaging of foodstuff and medicines.18
An experimental study conducted on waste plastic conversion
into chemical product like naphtha, thermal degradation of waste plastics is one method
currently being investigated as an alternative to landfill. Although the thermal process
produces significant quantities of light naphtha range (C6–C14) liquids, there is also a
residual fraction that may be considered as a potential feed stock for upgrading. The
fraction of a liquid produced by the thermal degradation process of waste plastics,
containing about 29%, +110 °C naphtha chemical, was subjected to thermal reactions. The 17
reactions used a commercial HZSM-5 supported on zeolite catalyst and gave good
conversion to naphtha. The process well simulated the experimental data, including
experimentally observed trends such as the maximum in naphtha yield. 19
A study on degradation of plastic carrier bags in the marine
environment to investigate breakdown of two oxo-biodegradable plastics,
compostable plastic and standard polyethylene in the marine environment . Tensile
strength of all materials decreased during exposure, but at different rates.
Compostable plastic disappeared from our test rig between 16 and 24 weeks whereas
approximately 98% of the other plastics remained after 40 weeks. Some plastics require
UV light to degrade. Transmittance of UV through oxo-biodegradable and standard
polyethylene decreased as a consequence of fouling such that these materials received ∼ 90% less UV light after 40 weeks. Our data indicate that compostable plastics may
degrade relatively quickly compared to oxo-biodegradable and conventional plastics.
While degradable polymers offer waste management solutions, there are limitations to
their effectiveness in reducing hazards associated with plastic debris.20
STUDIES RELATED TO ASSESS THE KNOWLEDGE AND ATTITUDE OF
COMMUNITY PEOPLE ON SAFE DISPOSL OF PLASTIC WASTES.
Study to assess people’s knowledge on the health and
environmental effects associated with open burning of household wastes at Kinondoni
Municipality in Dares Salaam City. The study involved 300 respondents whose aged
ranges between 19 years to 62 years (SD=1.O61).Majority of the respondents were from
the age group of 35 – 54 (35.7%), 55 years and above had the least members (6.3%) More
18
than 53% (160) of respondents were male. The majority of the study sample had primary
education(58.0%), secondary education (33.7%) and very few had higher education
(8.3%) The analysis on the past experiences on disposal mechanism of solid waste as
reported by all respondents; revealed that 48.0% buried waste underground, 47% was
open burnt and 5% solid waste were collected by a vehicle collected. These findings give
picture of how the disposal mechanisms commonly being practiced by the community in
the past few decades. The study explored the current practices of solid waste disposal. The
analysis revealed that 213(71.0%)practiced open burning of household waste. Open
burning took place along the street roads (45.1%), in front of house (27.7%), at the back
yard (18.3%) and the rest in the barrel (8.9%).The result showed that, solid waste often
burnt in households included tree leaves (72%), plastics including bags and bottles
(70.4%), papers (68.5%),Garbage i.e. food waste (65.3%), tires (51.6%), old mattresses
(39.0%) plus leather with worn out clothes(31.9%). Most of these wastes were generated
from different activities conducted around households. Regarding final disposal
mechanism, the result showed that, 71% of the household practices open burning as the
final disposal of solid waste. The study also investigated on the socio – economic factors
that influenced open burning. The analysis of the findings revealed that, the practice
appeared to be mostly conducted in slums and squatter area with people of low socio-
economic status and highly populated lived. 21
A study was conducted among 200 households was obtained using a
multi-staged random sampling technique from among households in Awka, Anambra
State, Nigeria. Of the 200 households, 144 resided in 3-bedroom quarters either flats or
bungalows, 31 in single room apartments, 18 in two rooms while the remaining 7
households lived in houses that had more than three rooms 112 of the households were
made up of 5-6 persons (56%), followed by a family size of 3-4 persons in 40 of the
19
6.3
households (20%) The commonest type of waste generated was garbage (100%), followed
by cellophane bags (99%), plastics and paper (59%). Less than half of the respondents
(43.5%) agreed to generating glass and metal . 194 of the households owned a receptacle
for storing their solid waste (97%) of which 158 (81.5%) preferred plastic bins, 21
(10.8%) metal bins while 15 (7.8%) used cellophane bags Further evaluation showed that
83.5% covered their waste bin while 13.5% did not and that most kept the bin or bag
outside the house while only 8% kept theirs inside in the kitchen. This study showed that
majority of the respondents (95%) had knowledge of recycling of waste. Plastic was the
best-known recyclable material among the respondents (59%) followed by paper (21.5%),
and glass (13.5%). Most of the households did not recycle their solid waste (75%), others
deposited theirs in recycling cages (12.6%), sold their plastic containers, empty bottles
and scrap metal (3.5%) or gave them to the poor (1.5%).55.5% of the respondents
expressed dissatisfaction with the disposal of their solid waste by ANSEPA while 42.5%
thought ANSEPA was doing a good job. Suggestions on ways to improve solid waste
management included payment of fines for indiscriminate disposal (63%), payment of
fees for collection by ANSEPA (49%), and massive educational campaigns (4%). 22
STATEMENT OF PROBLEM:
“A study to assess the effectiveness of structured teaching programme
on hazards of plastic waste and its safe disposal among a selected rural community
area at Bangalore”.
OBJECTIVES OF THE STUDY
The objectives of the study are:
20
6.4
6.5
To assess the existing knowledge of rural community people on hazards of
plastic waste and its safe disposal.
To assess the effectiveness of Structured teaching programme on hazards of plastic
waste and its safe disposal among rural community people.
To find the association of the knowledge level with selected demographic
variables such as age, sex, religion, education, economic background, occupation
housing pattern, family size ,methods of disposal of waste in house etc .
HYPOTHESIS
The hypothesis will be tested at 0.05 level of significance.
H 1: There will be significant increase in the knowledge score after
Structured teaching programme.
H 2: There will be significant association between the knowledge scores with
selected demographic variables like age, religion, education, economic background,
occupation housing pattern, family size, methods of disposal of waste in house etc .
OPERATIONAL DEFINITIONS:
ASSESS
In this study it refers to determine the effect of Structured teaching
programme on hazards of plastic waste and its safe disposal as measured by the semi -
structured questionnaire on a selected rural community area.
EFFECTIVENESS
21
6.6
In this study it refers to producing the desired or intended result of structured
teaching programme on hazards of plastic waste and its safe disposal as measured by the
instrument and shown by the post test scores of the community people.
STRUCTURED TEACHING PROGRAMME
It is a formal and specific teaching developed for rural community people
regarding safe disposal and hazards of plastic wastes.
KNOWLEDGE
In this study it refers to the knowledge of selected rural
community people about health hazards eg: cancer, bronchopneumonia etc, and
environmental hazards eg: air pollution ,water pollution etc, on plastic waste and its safe
disposal,can be measured through questionnaire.
PLASTIC WASTES In this study plastic waste refers to the waste substance generated during the production
and usage of plastic materials and its substances
HAZARDSIn this study hazard is a situation that poses a level of threat to life, health, property,
or environment.
ASSUMPTIONS
Rural community people will have inadequate knowledge regarding hazards of
plastic waste and its safe disposal
22
6.7
6.8
6.9
7.0
Structured teaching programme on hazards of plastic waste and its safe disposal to
rural community people will promote better plastic waste disposal strategies and
will reduce health hazards.
DELIMITATIONS:The study is delimited :
who knows kannada or English
waste materials other than plastics
Who are willing to participate in the study.
PROJECTED OUTCOME:
The present study will help the rural community people to understand
about the hazards of plastic waste and its safe disposal and hence it will
help to promote better plastic waste disposal strategies and will reduce
health hazards .
MATERIALS AND METHODS
7.1 SOURCE OF DATA
The data will be collected from rural community people who are residing in community area.
7.1.1 RESEARCH DESIGN
The research design adopted for this study is quasi experimental study.
RESEARCH APPROACH
The research approach is evaluative.
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7.1.2 SETTING:
The study will be conducted in a selected rural community area at Bangalore. It is
10 km away from the College.
7.1.3 POPULATION
The population selected is community people residing in Hegganahalli community area.
7.2 METHOD OF DATA COLLECTION
7.2.1 SAMPLING PROCEDURE
The Sampling Technique adopted for this study is simple randomized sample.
7.2.2 SAMPLE SIZE
The sample size is 100.
7.2.3 INCLUSION CRITERIA
The criteria for sample selection are who
People residing in rural community area.
Willing to participate in the study.
Knows kannada or English language.
People available during study period.
7.2.4 EXCLUSION CRITERIA
24
People residing in urban areas.
Excluding plastic wastes.
People not willing to participate.
People who are migrating.
People who doesn’t know English and Kannada.
7.2.5 INSTRUMENT INTENDED TO BE USED
SELECTION OF TOOL
This consist of three parts :
PART 1 :consist of demographic variables such as age, sex, religion, education, economic
background, occupation housing pattern family size, methods of disposal of waste in
house , type of family, income etc
PART 2:Questionnaire will be used to assess the knowledge.40 Questions will be used.
PART 3:Structured teaching programme regarding safe disposal strategies and prevention
of plastic wastes hazards
SCORING PROCEDURE
For knowledge assessment
For Answers. If answer is yes 125
If answer is no 0
SCORING INTERPRETATIONGood :- 75-100%
Average :- 50-74.9%
Poor :- Below 49.9%
7.2.6 DATA COLLECTION METHOD
Prior permission will be obtained from the respective
authorities before conducting the study. Interview will be conducted between 10 am to
3 pm. Data will be collected from 5 samples per day. The duration will be 4 weeks. The
duration of study will be 30 minutes will be spent per each subject.
7.2.7 PILOT STUDY.
10 samples will be selected and study will be conducted to find out the feasibility.
7.2.8 DATA ANALYSIS PLAN
The data obtained will be analyzed in view of the objectives of the study
using descriptive and inferential statistics.
The plan for data analysis was as follows: -
Frequencies and percentage of distribution will be used to analyze
the demographic data.
Mean, Median and Mode, Standard deviation is used for accessing
the knowledge scores.
Chi-square test to find out the association between knowledge
26
7.3
7.4
with selected demographic variables. The significant findings will
be experienced in tables, figures and graph.
DOES THE STUDY REQUIRE ANY INVESTIGATION OR
INTERVENTION TO BE CONDUCTED ON PATIENTS OR OTHER
HUMANS OR ANIMALS?
- No
HAS THE ETHICAL CLEARANCE BEEN OBTAINED FROM YOUR
INSTITUTION?
YES, Ethical clearance will be been obtained from the research committee
of Nightingale college of nursing.
Consent will be taken from the panchayat president and medical officer Phc
and permission will be taken from the study subjects before the collection of data.
27
8.0 LIST OF REFERENCES
1 Elias, Hans-Georg ” An Introduction to Plastics”4th edition. Wiley & Weinheim
Publishers; (2003);pno 121.
2 Andrady, Anthony.” Plastics and the Environment” 6th edition . John Wiley & Sons;
(2003) ; pno 222.
3 Callan, Scott and Thomas.”Environmental Economics and Management ”
Environmental Health Journal ; (2006) June4 (2):59.
4 Vipin m vasighte.” Multitude of plastic users”. Indian Journal of Medical Sciences:
2010; Nov ;48 (8):46-55.
5 Kalpana Sunder “Plastics a Menace”. The Indian Journal On Environmental
Health.:2009;Jan 37(3): 119-137.
6 Richardson. E,et al.” Environment and Health”.Archives of Environmental Health
Journal .:2001;May;56(3):264-70.
7 Dave G,Etal.”Environmental Health Hazards”. Science Total Environmental Journal .:
2011; August;409(18):9-24.
8 Gregory MR.” Effects of Plastic Burning on Environment ”. Biological Science
Journal.: 2009 ; July;364(1526):2013-25.
28
9 Didyk B.M.,et al.” Combustion products of plastic ”. Environmental Science
Technology Journal:2005; September ;39(18):6961-70.
10 Lewis.R” Health issues in plastics production and processing”. Occupational
Medical Health Journal.:2009 ; October ; 14(4):777-96.
11 Tosti A. E,et al.” Occupational skin hazards from synthetic plastics”. Toxicoly Indian
Health Journal: 2003; May;9(3):493-502.
12 Wiberg GS.” Consumer Hazards of Plastics”. Environmental Health Perspective
Journal :2006; Oct;17:221-5.
13 Eckardt RE.” occupational and environmental health hazards in the plastics industry”.
Environmental Health Perspective Journal :2006; Oct;17:103-6.
14 Mario C. Flores” plastic Materials and Environmental Externalities”. Lethbridge
Undergraduate Research Journal: 2005;68(4):32-36.
15 Nayak Rao .” plastic waste management”. Indian Journal of Medical Sciences: 2011;
Aug ;36 (6):16-25.
16 Sivan A.” New perspectives in plastic biodegradation”. Current Opinion in
Biotechnology journal.: 2001; June;22 (3):422-620.
29
17 Chen X, Xi F, Geng Y,”potential environmental gains from recycling waste plastics”.
Waste Management journal: 2011; January; 31(1):168-79.
18 Agnihothra.V.” Guidelines for recycling of plastics”. Indian journal on Medicine:
2009; April; 26 (6):52-61.
19 Moinuddin Sarker, Mohammad Mamunor Rashid, and Mohammed Molla.”waste
plastic conversion into chemical products”.Journal of Fundamentals of Renewable Energy
and Applications:2001 ; Dec;5 (1):11-20.
20 O'Brine T, Thompson RC. ”Effects of plastic wastes on Marine Environment”. Marine
Pollution Bulletin;Dec 2010; 60(12):2279-83.
21 Huntley S .” Public Health Implication Of Household Solid Waste Management”. The
Internet Journal of Public Health :2005;mar; 37(1-3): 119-137
22 Chaggu EJ, Kaseva ME.” Effects of Open burning of Domestic wastes”. Dar es salaam
medical students' journal: 2010; january; 35(1): 170–171.
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9. SIGNATURE OF THE CANDIDATE
10. REMARKS OF THE GUIDE
11. NAME AND DESIGNATION OF
11.1 GUIDE
11.2 SIGNATURE
11.3CO-GUIDE
11.4SIGNATURE
11.5 HEAD OF DEPARTMENT
11.6 SIGNATURE
12 12.1 REMARKS OF THE PRINCIPAL
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12.2 SIGNATURE
32