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Re-creation: transformation/fabrication: a re-creation centre sustained through the symbiosis of waste transformation and fabricationRamos, Pedro Andre Martins January 2017 (has links)
Thesis is submitted in partial fulfilment for the degree of Master of Architecture (Professional) to the Faculty of Engineering and the Built Environment, School of Architecture and Planning at the University of the Witwatersrand, Johannesburg, 2016 / To make and to utilise. These two actions effortlessly encapsulate a fundamental quality of human beings. Ever since the dawn of industry, humans have developed a necessity to manufacture various items and systems in order to achieve a more efficient and enjoyable lifestyle. The nature of manufacturing has always been defined by the concept of input and output and over time has resulted in the unsustainable extraction of Earth’s natural resources in order to produce. Additionally, consumerism has exponentially increased the rate at which society manufactures and has consequently led to by-production of discarded waste. The presence of solid waste is adversely affecting the environment due to the fact that a large majority of it is non-biodegradable and thus pollutes today’s cities and natural ecosystems.
In the context of Newtown, Johannesburg, the issue of discarded solid waste is of growing concern. As a result of the seamless coexistence of industry, commerce and culture and its proximity to important urban zones, this historic area of Johannesburg is attracting more and more people from various social demographics. In turn, this has led to higher levels of productivity and
exploitation. As seen in most third world nations, such characteristics inevitably lead to an overabundance of unmanageable waste. Even with the implementation of various recycling schemes as well as the informal waste collecting movement, the issue in Newtown and greater Johannesburg still stands, due to the fact that waste management services lack the efficiency to transport collected waste to the relevant recycling and landfilling facilities. Without an efficient waste management system, various collection depots and scrap yards across the city remain under a constant state of waste overflow. This will only further tarnish the notion of waste recycling on an urban level.
Therefore by reimagining the term ‘recycle’ and perceiving it in the sense of transformation, one may begin to rationalise a contemporary solution to the issue of waste in our cities. Through the study of waste on a global scale and some of the advanced technologies in an age defined by fabrication and making, this research report works to conceptualise a system in which discarded waste can be ‘transformed’ and used for the fabrication of any conceivable object. The establishment
of a framework which allows direct, on-site trading of collected waste and its consequent transformation for fabrication, would aid in addressing the issue of overflowing waste yards across the city and would in turn improve the social awareness of waste management on an urban level. The incorporation of transformed waste with digital, nano and prefabrication technologies will ultimately result in the realisation of an architecture that will offer society the opportunity to re-create. A social place where waste is the vital resource and where the maker’s creativity is the limit. / XL2018
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Solid waste management in South Africa: exploring the role of the informal sector in solid waste recycling in JohannesburgDlamini, Smangele Qondile January 2017 (has links)
A research paper submitted to the Faculty of Science, University of the Witwatersrand, in partial fulfilment of the requirements for the degree of Master of Science
November, 2016. / Informal solid waste recycling has increasingly become part of the urban landscape in many South African cities and towns. In the city of Johannesburg, for example, waste pickers are now playing an important role in waste management and recycling. There is evidence in the literature that suggests these activities have both economic and environmental benefits thereby contributing towards job creation and environmental sustainability. Despite the role that the informal sector contributes to waste management and socio-economic development, as well as environmental sustainability, the urban development and planning policy in South Africa has not embraced and integrated informal systems of municipal waste management in its policy framework. Drawing on field-based study conducted in selected parts of the City of Johannesburg, and using methods inspired by the traditional participatory research, this study explored the institutional framework within which informal solid waste management can be pursued. One solution to this problem could be the integration of the informal sector recycling into the formal waste management system. To achieve informal sector recycling integration, this study identifies barriers that hinder the integration of the informal sector into an inclusive waste management: repressive policy, lack of evidence to support activity, social acceptance, illegal migrants and lack of valid citizenship documents. It is essential to note that the integration of waste pickers should not be grounded on a ‘universal’ model but should instead take into account local context and conditions. / MT2017
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Assessment of waste separation at source by residential households as a tool for sustainable waste practices: a case study of the City of JohannesburgKadyamadare, Grace Alice Rudo January 2017 (has links)
A research report presented in partial fulfillment of the requirements
for the degree of Master of Science in Environmental Science at the
University of the Witwatersrand. Johannesburg, August 2017. / In Johannesburg, as in many cities of developing countries, municipal solid waste
management poses a key challenge to local city governments. The amount of municipal solid
waste generated has been noted to be growing in tandem with increasing city populations.
This Masters Research Report focuses on the factors shaping participation in the separation at
source (S@S) programme run by Johannesburg’s Pikitup waste management utility, with a
particular focus on the role of residents’ conceptualization of waste. The research employed a
qualitative comparative case study of two suburbs that were part of Pikitup’ first pilot S@S
programme, which was conducted by the Waterval depot: the low income area of Newlands,
and the high income area of Franklin Roosevelt Park. Twenty semi-structured interviews and
one focus group interview were conducted in each of the suburbs, as well as three semistructured
interviews with key informants. Findings were analyzed using thematic content
analysis. The results indicate several differences between the two suburbs – including
participation rates, conceptualization of waste and other factors shaping wasting practices.
The research showed that conceptualization of waste is an important factor, but not the only
one and affirmed other studies showing the importance of time, convenience and positive
attitude towards recycling. The research found that in addition to their conceptualization of
waste, the ways in which residents conceptualized recyclables affected their participation
rates, and that their separation practices were aligned to their conceptualizations. In
addition, the research found that residents’ conceptualization of recyclables and the recycling
system played an important role in their decision to participate in Pikitup’ S@S programme.
In Newlands, whilst some separated but due to their low incomes they sold it for themselves
versus giving it to Pikitup, and others would not separate as they felt Pikitup should pay them
or it was time consuming for them. In both suburbs those that understood the role of waste
pickers chose to separate their waste for the waste pickers versus Pikitup. In conclusion,
when we understand that residents participating in separating materials for different
pathways, and waste pickers play an important role in separating at source when residents fail
to do so then a better understanding of how much waste is being separated and diverted from
landfills is obtained in addition to what motivates participation in separation.
Keywords: municipal solid waste (MSW), resident households,
conceptualization of waste, separation at source, wasting practices, waste
picker / LG2018
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Meteorological Conditions Affecting the Dispersion of Landfill Odor ComplaintsUnknown Date (has links)
One of the factors recognized as affecting the dispersion of landfill odors off-site
are complex meteorological conditions. A major issue is lack of consistent means to
identify the odors and their intensity. The aim of this research was to investigate the
influence of meteorological parameters (temperature, humidity, pressure, wind direction,
wind speed, precipitation accumulation and weather conditions) on the frequency of odor
complaints from nearby neighborhoods. Methods involved collection of ten years of data
on odor complaints and weather conditions to determine if there were commonalities.
Sophisticated statistical analyses employed did not reveal any relationships between odor
complaints and weather alone. Need for substantial improvement of detailed information
is recognized. To help identify the factors that influence odor complaints- a revised odor
complaint form, along with operational adjustments, were recommended. An “Odor Threat Assessment Level” is proposed to assist landfill site personnel in managing daily
operations, based on weather conditions. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2017. / FAU Electronic Theses and Dissertations Collection
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Medical waste management at Tygerberg hospital in the Western Cape, South AfricaAbor, Patience Aseweh January 2007 (has links)
Thesis (MTech (Environmental Health))--Cape Peninsula University of Technology, 2007 / This study examined the medical waste management practices of Tygerberg Hospital.
The researcher made use of both primary and secondaiy data. Since this was a is study,
the analysis is essentially descriptive.The results of this study revealed that both general and medical wastes are generated in
the hospital. Tygerberg Hospital does not quantify medical waste. Segregation of medical
wastes into infectious medical waste and non-infectious medical waste is not conducted
according to definite rules and standards. The hospital does not label infectious waste
with Biohazard symbol. Separation of medical waste and municipal waste is however
practiced to a satisfactory extent. Wheeled trolleys are used for on-site transportation of
waste from the points of production (different wards) to the temporary storage area. Staff
responsible for collecting medical waste use almost complete personal protective
equipment. The results of this study indicated that off-site transportation of the hospital
waste is undertaken by a private waste management company. Waste is transported daily
and small pickups are mainly used by the waste management company for transporting
the waste to an off-site area for treatment and disposal. The final disposal of the medical
waste is done by the private waste management company. The main treatment method
used in the final disposal of infectious waste is incineration. Non-infectious waste is
disposed of using land disposal method. The hospital does not recycle medical waste
materials except white office paper and mixed office paper and the use of empty
containers of antiseptics for the collection and temporary storage of sharps.The hospital does not provide training for staff members on the health and environmental
effects of infectious waste. The waste management company's workers have also not
received any formal training with regards to medical waste management. The study
showed that Tygerberg Hospital does not have a policy and plan in place for managing
medical waste. There is no definite policy or plan for purchasing the necessary equipment
and for providing the facilities for the correct management of medical waste in the
hospital. There are also no policies and guidelines regarding the recycling of medical
waste products. There are a number of problems the hospital faces in terms of medical
waste management, including; lack of necessary rules, regulations and instructions on the
different aspects of collection and disposal of waste, intermingling of hazardous wastes
with domestic waste in the hospital sometimes, failure to quantify the waste generated in
reliable records, lack of use of coloured bags by limiting the bags to only one colour for
all waste, the absence of a dedicated waste manager, the supervisor in charge of general
services has waste management as part of his job schedule, and there is no committee
responsible for monitoring the management of medical waste. From the results of this
study, it is obvious that medical waste management is not practiced according to the
World Health Organisation's (WHO's) recommended standards. There are some areas
where medical wastes are not properly managed. It is imperative for significant
investment in the proper management of medical waste in order to reduce the health risk
it poses.
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The community choice between high and low technology approaches to resource recoveryHill, Stephen Andrew January 1980 (has links)
Thesis (M.C.P.)--Massachusetts Institute of Technology, Dept. of Urban Studies and Planning, 1980. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ROTCH. / Bibliography: leaves 126-129. / by Stephen Andrew Hill. / M.C.P.
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Reduction of odor generation through composting process controlFung, Shun On 01 January 2007 (has links)
No description available.
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Surf: an abstract model of distributed garbage collection.Brodie-Tyrrell, William January 2008 (has links)
Garbage collectors (GCs) automate the problem of deciding when objects are no longer reachable and therefore should be reclaimed, however, there currently exists no automated process for the design of a correct garbage collector. Formal models exist that prove the correctness of individual GCs; more general models describe a wider range of GCs but do not prove their correctness or provide a concrete instantiation process. The lack of a formal model means that GCs have been designed in an ad-hoc manner, published without proof of correctness and with bugs; it also means that it is difficult to apply experience gained from one implementation to the design of another. This thesis presents Surf, an abstract model of distributed garbage collection that bridges the gap between expressibility and specificity: it can describe a wide range of GCs and contains a proof of correctness that defines a list of requirements that must be fulfilled. Surf’s design space and its requirements for correctness provide a process that may be followed to analyse an existing collector or create a new GC. Surf predicts the abstract behaviour of GCs; this thesis evaluates those predictions in light of the understood behaviour of published GCs to confirm the accuracy of the model. A distributed persistent implementation of the Train Algorithm is created as an instantiation of Surf and the model is used to analyse progress in the GC and drive the design of a partition selection policy that provides a lower bound on progress and therefore reduces the GC’s complexity to completeness. Tests with mesh data structures from finite element analysis confirm the progress predictions from Surf. Published GCs cluster mostly in one corner of the Surf design space so this thesis explores the design of a GC at an unoccupied design point: the Tram Algorithm. Analysis via Surf leads to the prediction that Trams are capable of discovering topology in the live object graph that approximately identifies the strongly connected components, permitting O(1) timeliness that is unique to the Tram Algorithm. / Thesis (Ph.D.) -- University of Adelaide, School of Computer Science, 2008
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Commercial and retail waste recycling in the Adelaide Central Business DistrictChung, Shan Shan. January 1991 (has links) (PDF)
Bibliography: leaves 70-71.
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System dynamics study and assessment on municipal solid waste management for MacaoChoi, Fei January 2012 (has links)
University of Macau / Faculty of Science and Technology / Department of Civil and Environmental Engineering
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