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Статті в журналах з теми "Waste minimization South Australia":

1

Al-Muzaini, Saleh. "Waste minimization program in Shuaiba Industrial Area." Water Science and Technology 39, no. 10-11 (May 1, 1999): 289–95. http://dx.doi.org/10.2166/wst.1999.0669.

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The Shuaiba Industrial Area (SIA) is located about 50 km south of Kuwait City. It accommodates most of the large-scale industries in Kuwait. The total area of the SIA (both eastern and western sectors) is about 22.98 million m2. Fifteen plants are located in the eastern sector and 23 in the western sector, including two petrochemical companies, three refineries, two power plants, a melamine company, an industrial gas corporation, a paper products company and, two steam electricity generating stations, in addition to several other industries. Therefore, only 30 percent of the land in the SIA's eastern sector and 70 percent of land in the SIA's western sector is available for future expansion. Presently, industries in the SIA generate approximately 204,000 t of solid waste. With future development in the industries in the SIA, the estimated quantities will reach 240,000 t. The Shuaiba Area Authority (SAA), a governmental regulatory body responsible for planning and development in the SIA, has recognized the problem of solid waste and has developed an industrial waste minimization program. This program would help to reduce the quantity of waste generated within the SIA and thereby reduce the cost of waste management. This paper presents a description of the waste minimization program and how it is to be implemented by major petroleum companies. The protocols employed in the waste minimization program are detailed.
2

Oladiran, Olatunji J., Olabode E. Ogunsanmi, and Martin O. Dada. "Frameworks for Material Waste Minimization on Nigerian Building Projects." Journal of Construction Business and Management 3, no. 1 (February 12, 2019): 45–61. http://dx.doi.org/10.15641/jcbm.3.1.593.

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A novel approach to solving waste incidence of materials on building projects is to framework the issues and processes that are involved in its minimization. The objective of the study is to develop and validate frameworks for material waste minimization in building projects. This study is a survey research in South West Nigeria. Define, Review, Identify, Verify and Execute (DRIVE) and Construction Process Improvement Methodology (CPIM) techniques were used to develop the proposed frameworks; while the validation was done by face validity and scoring model approaches. A pilot validation was done by five academics while the main validation involved 17 potential end users. Data were analysed with frequency and percentage. The study reveals that the frameworks are clear, informative, appropriate and applicable. It is concluded that the frameworks can minimize material waste at every stage of building projects. It is therefore recommended that the proposed FMWM should be adopted by all stakeholders to prevent and minimize material waste at all stages of building projects.Keywords: CPIM, DRIVE, Frameworks, Minimization, Prevention, Waste.
3

Plessis, Pieter, Tunde Ojumu, and Leslie Petrik. "Waste Minimization Protocols for the Process of Synthesizing Zeolites from South African Coal Fly Ash." Materials 6, no. 5 (April 29, 2013): 1688–703. http://dx.doi.org/10.3390/ma6051688.

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4

Maher, W. A. "Arsenic in coastal waters of South Australia." Water Research 19, no. 7 (January 1985): 933–34. http://dx.doi.org/10.1016/0043-1354(85)90154-x.

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5

Wallbrink, P. J., and A. S. Murray. "Fallout of 7Be in South Eastern Australia." Journal of Environmental Radioactivity 25, no. 3 (January 1994): 213–28. http://dx.doi.org/10.1016/0265-931x(94)90074-4.

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6

Ghosh, Subimal, and P. P. Mujumdar. "Fuzzy waste load allocation model: a multiobjective approach." Journal of Hydroinformatics 12, no. 1 (September 1, 2009): 83–96. http://dx.doi.org/10.2166/hydro.2010.028.

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Fuzzy Waste Load Allocation Model (FWLAM), developed in an earlier study, derives the optimal fractional levels, for the base flow conditions, considering the goals of the Pollution Control Agency (PCA) and dischargers. The Modified Fuzzy Waste Load Allocation Model (MFWLAM) developed subsequently is a stochastic model and considers the moments (mean, variance and skewness) of water quality indicators, incorporating uncertainty due to randomness of input variables along with uncertainty due to imprecision. The risk of low water quality is reduced significantly by using this modified model, but inclusion of new constraints leads to a low value of acceptability level, λ, interpreted as the maximized minimum satisfaction in the system. To improve this value, a new model, which is a combination of FWLAM and MFWLAM, is presented, allowing for some violations in the constraints of MFWLAM. This combined model is a multiobjective optimization model having the objectives, maximization of acceptability level and minimization of violation of constraints. Fuzzy multiobjective programming, goal programming and fuzzy goal programming are used to find the solutions. For the optimization model, Probabilistic Global Search Lausanne (PGSL) is used as a nonlinear optimization tool. The methodology is applied to a case study of the Tunga–Bhadra river system in south India. The model results in a compromised solution of a higher value of acceptability level as compared to MFWLAM, with a satisfactory value of risk. Thus the goal of risk minimization is achieved with a comparatively better value of acceptability level.
7

Knight, Michael J. "Legislation and administration of inground waste disposal in new South Wales and Victoria, Australia." Bulletin of the International Association of Engineering Geology 32, no. 1 (December 1985): 81–84. http://dx.doi.org/10.1007/bf02594768.

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8

Dastjerdi, B., V. Strezov, R. Kumar, and M. Behnia. "An evaluation of the potential of waste to energy technologies for residual solid waste in New South Wales, Australia." Renewable and Sustainable Energy Reviews 115 (November 2019): 109398. http://dx.doi.org/10.1016/j.rser.2019.109398.

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9

Korwa, Johni R. V. "The Resistance Movement of Aboriginal People To Fight Against The Plans For A Nuclear Waste Dump In South Australia." Papua Law Journal 1, no. 2 (October 25, 2018): 271–92. http://dx.doi.org/10.31957/plj.v1i2.592.

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Aborigine is the indigenous people of Australia who have attempted to oppose the proposal for South Australia to host an international nuclear dump. Even though the rights of indigenous people have been recognized by the United Nations Declaration on the Rights of Indigenous Peoples, the treatment they receive are not in accordance with the standard of living. The object of this this paper is to examine the struggle of Aboriginal Australia as indigenous people who seek to ensure their basic rights to clean environment from nuclear waste by using normative juridical method. The results of the paper show that Aboriginal people have commenced their struggle by the formation of global movement in the form of local campaign (Kupa Piti Kungka Juta), Australian Nuclear Free Alliance (ANFA), in collaboration with Amnesty International and the International Campaign to Abolish Nuclear Weapons (ICAN). All efforts are made to pressure the Australian government not to consider South Australia as a nuclear waste disposal site. This is because nuclear waste can have an impact on public health and environmental damage, trigger nuclear war, and become a threat to the land of Aboriginal people.
10

Smith, J. David, and Terry F. Hamilton. "Trace metal fluxes to lake sediments in south-eastern Australia." Science of The Total Environment 125 (September 1992): 227–33. http://dx.doi.org/10.1016/0048-9697(92)90393-7.

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Дисертації з теми "Waste minimization South Australia":

1

Larwood, Andrew John. "Cleaner production : promoting and achieving it in the South Australian foundry industry." Title page, table of contents and abstract only, 2000. http://web4.library.adelaide.edu.au/theses/09ENV/09envl336.pdf.

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Bibliography: leaves 123-130. The literature search and the findings from the investigation have been used to provide recommendations for a sector specific cooperative approach using regulation, self-regulation, voluntary agreements, economic incentatives and educational/information strategies to promote and acheive cleaner production in the South Australian foundry industry.
2

Arbuckle, Trevor James. "Reduce, reuse, recycle or regulate : the national packaging covenant and its application to the fruit and vegetable industry in Western Australia /." Access via Murdoch University Digital Theses Project, 2004. http://wwwlib.murdoch.edu.au/adt/browse/view/adt-MU20050505.135542.

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3

Myamya, Luyolo Ebenezer. "Establishing a waste management system for Cape Peninsula University of Technology." Thesis, Nelson Mandela Metropolitan University, 2016. http://hdl.handle.net/10948/11670.

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Communities around the globe are confronted by environmental challenges such as waste management. These challenges are further aggravated by factors such the increasing volumes of waste, landfills that are running out of capacity and scarcity of suitable land to construct new landfill sites. The National Waste Management Strategy requires participation from all members of society including households, businesses, community organisations, nongovernmental organisations, parastatals and the three spheres of government, to promote practices that minimise the volumes of waste generated. The purpose of the research was to assess and investigate the current waste management practices at the Cape Peninsula University of Technology (CPUT), and recommend a waste management system. The research employed a quantitative approach, where participants were asked to complete a survey questionnaire. A literature review was conducted on waste management at higher learning institutions, with particular focus on the contribution that a university can make in alleviating some of the adverse effects of waste management. The outcome of the review highlighted some of the opportunities and barriers that can either disrupt or augment the process of implementing a waste management system. The results from the research revealed that CPUT does not conform to the hierarchy of waste management, and there is no waste management policy in place. The effect of this is that the stakeholders were not satisfied with the lack of leadership on waste related challenges. By developing a policy, providing leadership, conducting awareness campaigns and prioritising environmental challenges such responsible management waste, could improve the image of the institution in the eyes if its stakeholders.
4

Collins, Gill. "Local government recycling : a South Australian perspective." Title page, contents and abstract only, 1989. http://web4.library.adelaide.edu.au/theses/09ENV/09envc712.pdf.

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5

Saaiman, Lizelle. "Improving waste management within selected South African municipalities." Thesis, Nelson Mandela Metropolitan University, 2013. http://hdl.handle.net/10948/d1014736.

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The essentiality for waste reduction in society is prompted by the depletion of natural resources. Internationally, five waste management strategies have been identified, namely reduction of waste (waste prevention), re-use of waste, recycling of waste, recovery of energy and disposal to landfill. In Polokwane Declaration of September 2001, South Africa’s Department of Environmental Affairs and Tourism committed itself to achieve a 50 percent reduction in the volume of waste generated by 2012 and to be landfilled and have a zero waste plan implemented by 2022. Through the National Waste Management Act, No. 59 of 2008, the South African government also committed itself to provide protection of health, well-being and the environment through measures to avoid and minimise the generation of waste. Even though several policies and legislative documents are available that address waste minimisation and recycling, individual community members are however still reluctant to participate in these activities. This study therefore investigated the current levels of understanding, education and commitment to recycling and waste minimisation in a selected South African community. The target respondents of the study were members of a local church who are representative of the various peoples that reside in the communities serviced by the selected municipality. A convenience sample of 70 participants from that church was selected to complete the questionnaires. Seventy (70) questionnaires were distributed, and all 70 questionnaires were returned. Interviews were also conducted with two managers from the Waste Management Department of the selected municipality. The data analyses conducted, included descriptive statistics and content analysis of the interview transcripts. The empirical results revealed among others that: (1) recycling removal service is limited to pre-selected recyclables; (2) the municipality contributes to local entrepreneurial opportunities; (3) public participation is a pre-requisite in the success of the programmes; (4) participation is determined by convenience; (5) enforcement of legislation assists with compliance; (6) environmental sustainability is supported by environmental concerned consumers; (7) mismatch of opinions around separation at source of generation and (8) continuous education is instrumental in waste management. The main recommendations of the study include: (1) municipalities need to provide exciting and innovative recycling and waste minimisation programmes, continuously; (2) positive attitude and behaviour of all the stakeholders determines the success of waste minimisation and recycling; and (3) society, industry and government need to join forces in ensuring success in waste management. By implementing these recommendations, stakeholders in this field of interest will go a long way in improving waste management in South Africa communities.
6

Semoli, Belemane Petrose. "Assessment of the practice and potential of industrial solid waste minimisation : case study of Stellenbosch." Thesis, Stellenbosch : Stellenbosch University, 2005. http://hdl.handle.net/10019.1/50281.

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Thesis (MSc)--Stellenbosch University, 2005.
ENGLISH ABSTRACT: There is increasing pressure on factories and government to practise cleaner technology. The public is becoming more and more environmentally aware and external pressure from international competitors is also forcing companies to adopt environmentally sound production practices. Our natural resources and the environment need environmentally friendly practices. Waste minimisation is not only prudent practice for manufacturing industries, but is also an integral part of environmental regulations in many countries, including South Africa. This research seeks to investigate the extent and potential for industrial waste minimisation in Stellenbosch. The objectives of this thesis are, firstly to establish and evaluate the present range and extent of industrial solid waste minimisation practices; secondly to identify and evaluate potential industrial solid waste minimisation measures that could (if necessary) be instituted in future; and finally to propose a general strategy for the minimisation of industrial solid waste in Stellenbosch. The findings reflect that currently there is little waste minimisation awareness and practice in Stellenbosch. The most common method of waste minimisation currently practised by industries is recycling through the selling of recyclables. The least common method is the equipment-related change method, due to the high costs involved in adopting this method. Based on the findings, a suitable regional waste management strategy was developed and this strategy could possibly be adopted elsewhere in South Africa. Key words: waste minimisation, waste management, re-use, recycling, factory, environment, practice, participation, cleaner technology, awareness, Stellenbosch
AFRIKAANSE OPSOMMING: Daar is toenemende druk op fabrieke sowel as op die regering om skoner tegnologie te beoefen. Die publiek raak ook toenemend meer omgewingsbewus en druk vanaf die kant van internasionale mededingers forseer maatskappye om praktyke in te stel wat gunstig is ten optigte van die omgewing. Ons natuurlike hulpbronne en die omgewing benodig omgewingsvriendelike vervaardigingspraktyke. Die beperking van afvalstowwe is nie net vir die fabriekswese 'n wyse praktyk nie, maar maak ook in vele lande, met inbegrip van Suid-Afrika, 'n integrale deel uit van regulasies met betrekking tot die omgewing. Hierdie navorsingsprojek poog om die omvang en potensiaal van beperking van afvalstowwe in Stellenbosch te ondersoek. Die doelwitte van die ondersoek is eertens om ondersoek in te stel na die huidige reikwydte en omvang van praktyke om vaste industriële afvalstowwe te beperk en dit te evalueer; tweedens om potensiële industriële vaste afvalstofbeperkingsmaatreëls wat, indien nodig, in die toekoms ingestel sou kon word, te indentifiseer en te evalueer; en dan uiteindelik 'n algemene strategie vir die beperking van vaste industriële afvalstowwe in Stellenbosch voor te stel. Die bevindings in hierdie tesis bewys dat daar tans gennge bewustheid van die noodaaklikheid van afvalstofbeperking in Stellenbosch is en dat dit ewe min in die praktyk toegepas word. Die mees algemene vorm van beperking van afvalstowwe in die fabriekswese is deur middel van verkoop van herwinbare afvalstowwe. Die mins algemene vorm van beperking van afvalstowwe hou verband met die vervanging van toerusting. Die rede hiervoor het te doen met die koste verbonde aan die strategie. Vanuit hierdie bevindings is toepaslike strategie vir die bestuur van afvalstowwe op streeksvlak ontwikkel. Hierdie strategie sou moontlik ook elders in Suid-Afrika toegepas kon word. Sleutelwoorde: beperking van afvalstowwe, afvalstofbestuur, hergebruik, herwinning, fabriek, omgewing, praktyk, deelname, skoner tegnologie, bewustheid, Stellenbosch
7

Chung, Shan Shan. "Commercial and retail waste recycling in the Adelaide Central Business District." Title page, contents and abstract only, 1991. http://web4.library.adelaide.edu.au/theses/09ENV/09envc559.pdf.

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8

Chisadza, Charity-Ann. "Solid waste management (SWM) in Johannesburg : alternative futures." Thesis, Stellenbosch : Stellenbosch University, 2015. http://hdl.handle.net/10019.1/97464.

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Thesis (MDF)--Stellenbosch University, 2015.
ENGLISH ABSTRACT: Johannesburg generates in excess of 1 500 000 tonnes of general waste annually and has on average 10 years’ lifespan remaining on its four landfill sites. As a signatory to the Polokwane Declaration, the City of Johannesburg has recognised the need for new interventions to divert waste from landfills by various methods, such as separation at source; alternative treatment methods and the conversion of waste to energy. Progress has, however, been slow and this research aims to investigate alternative waste management techniques that can be applied in the City of Johannesburg to fast track the realisation of these targets. Using scenario planning techniques, the research considers implications for policy and management decisions in realising the best possible future in the area of waste management in Johannesburg. The scenario process was used to develop the following scenarios for waste management in Johannesburg: Long walk to freedom. Waste collection coverage includes pockets of the community where waste collections services are less than optimal. The residents of the city, particularly in these underserviced areas, are also not very knowledgeable of the impact that the waste generated within their communities can have on the environment and what alternatives there are to manage this. Pick it up. The City provides full services to a society that functions in relative oblivion of the implications of their behaviour on the environment. It is assumed to be the role of government to “pick up” after communities and dispose of waste. This scenario is oblivious of the waste hierarchy and the role communities could play in minimising waste. Wishing on a star. The city continues to have under-serviced areas, public awareness is high and this fuels correct behaviour and a mind-set shift with regard to waste management. Working together we can do more. The City optimises its service provision to cover all areas while also ensuring maximum public awareness and behaviour change with regard to waste management.
9

Erasmus, Deidre Felicia. "Investigating the potential for the application of lean manufacturing in the can coating plant at Duco Coatings." Thesis, Nelson Mandela Metropolitan University, 2008. http://hdl.handle.net/10948/949.

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Companies are constantly expected to be more competitive while working in an environment in which time and cost are limited, thereby preventing such companies from taking the time required to be responsive. It is, therefore, important that companies understand that conventional knowledge and methods will not serve unless there is a concerted focus on improvement of organisational performance toward fulfilling increased expectations, not just maintaining that which is comfortable. A more sustainable approach may be the introduction of lean manufacturing techniques. The lean manufacturing process is one that continuously strives to eliminate waste, thereby increasing the percentage of time that may be devoted to value-adding activities. Lean manufacturing principles were applied in the Can Coating Plant of Duco Speciality Coatings. This study was intended to identify waste in the current production process in the Can Coating Plant and then to use lean tools and principles to eliminate such waste. Implementation of these lean tools proved to result in a leaner and more value-adding process. The new process rendered a positive result on Duco Coating’s costs, quality and product performance. Recommendations on further improvements were also offered.
10

Mohamed, Ayub. "Waste management practices at the University of Stellenbosch : an environmental management perspective." Thesis, Stellenbosch : Stellenbosch University, 2002. http://hdl.handle.net/10019.1/53218.

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Thesis (MSc)--Stellenbosch University, 2002.
ENGLISH ABSTRACT: As the world enters a new millennium, global awareness of environmental issues have reached new heights. No longer is the environment seen as an all-absorbing and allproviding resource. Rather, there exists a greater awareness that without active management, the inherent risks and hazards - posed by both the natural environment and humankind's interaction with this environment - will be realised. In order to ensure a sustainable co-existence, humanity's interaction with the surrounding. environment must be managed in a responsible manner. In this regard, all aspects of this interaction require attention. Various frameworks, manifested in a variety of forms, have been proposed. One of the most basic aspects of species existence is the generation of waste. Human existence is no different. However, as a result of the variety of activities that characterise humans' existence on Earth, the generation of waste represents the most tangible and probably the most threatening aspect of this interaction. This study focuses on waste management from an environmental perspective at a specific institution, namely the University of Stellenbosch. In terms of its findings, the study has established the applicability of various regulatory and institutional frameworks within which the University operate. These frameworks address the role of the University both in terms of waste management and sustainable development. It has established the types of waste generated, the generating processes, the storage, and removal and disposal characteristics of waste management at the University. Waste management at the University is determined to be complex and fragmented, the result of a variety of activities occurring. It has established that limited waste minimisation and reduction activities occur, even though the University had identified effective and efficient resource use as a strategic priority. Although attempts at improving waste management are admittedly underway, the study has found that adopting an environmental management system approach to waste management will enable the University to meet pending legislative and institutional environmental commitments.
AFRIKAANSE OPSOMMING: Met die binnetree van 'n nuwe millennium het wêreldwye bewustheid van omgewingskwessies nuwe hoogtes bereik. Die omgewing word nie meer bloot beskou as 'n alles-absorberende en alles-voorsienende hulpbron nie. Veel eerder groei bewustheid van die noodsaak vir aktiewe bestuursingryping om die gevare en bedreigings inherent aan die natuurlike omgewing, en die mens se interaksie daarmee, die hoof te bied. Ter wille van volhoubare saambestaan moet die mens-omgewing interaksie op verantwoordelike wyse bestuur word. Alle aspekte van hierdie interaksie vereis aandag en 'n verskeidenheid raamwerke in 'n verskeidenheid formate is hiervoor voorgestel. Die produksie van afval is een van die mees basiese kenmerke van lewensbestaan. Menslike bestaan is nie daarbo verhewe nie. Weens die verskeidenheid aktiwiteite wat menslike bestaan kenmerk, is die produksie van afval die mees tasbare en waarskynlik mees bedreigende manifestasie van mens-omgewing interaksie. Hierdie tesis fokus op afvalbestuur uit die invalshoek van die omgewing, soos dit beslag kry aan 'n spesifieke instansie, naamlik die Universiteit van Stellenbosch. Die studie het ten aanvang die implikasies van die verskeidenheid regulatoriese en institusionele raamwerke waarin die universiteit opereer, bevestig. Hierdie raamwerke omvat die rol van die Universiteit beide in terme van afvalbestuur en volhoubare ontwikkeling. Die tipes afval wat aan die instansie gegenereer word is geklassifiseer en die genererings-, opbergings-, verwyderings- en verwerkingsprosesse en verantwoordelikhede is vasgestel en gedokumenteer. Afvalbestuur aan die Universiteit blyk kompleks en gefragmenteerd te wees, hoofsaaklik as gevolg van die wye verskeidenheid afval-skeppingsbronne wat hier aangetref word. Ook is bevind dat, ten spyte van die instansie se identifisering van effektiewe hulpbrongebruik as 'n strategiese prioriteit, slegs beperkte afval-inkorting en -reduksie aan die instansie plaasvind. Hoewel daar tans 'n aktiewe proses geloods word om afvalbestuur te verbeter, beveel die studie die aanvaarding, ontwerp en implementering van 'n veel meer wydlopende en holistiese benadering in die vorm van 'n geïntegreerde omgewingsbestuurstelsel aan. Slegs hierdeur sal die Universiteit in staat wees om aan die volgende vlaag wetgewing rakende afvalbestuur te voldoen en ook verantwoordelike omgewingsverbintenis te demonstreer.

Книги з теми "Waste minimization South Australia":

1

Tinsley, Allan. Hazardous waste minimization in South Carolina for 1988. Columbia, S.C: South Carolina Dept. of Health and Environmental Control, Office of Environmental Quality Control, Bureau of Solid and Hazardous Waste Management, Division of Facility Compliance, 1989.

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2

Leney, Alice. The impact of the greenbag on waste generation in South Tarawa, Kiribati. Apia, Samoa: SPREP, 2006.

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3

Australia and New Zealand Conference on Environmental Geotechnics (2nd 2001 Newcastle, N.S.W.). Environmental geotechnics: Proceedings of the 2nd Australia and New Zealand Conference on Environmental Geotechnics-GeoEnvironment 2001, Newcastle, New South Wales, Australia 28-30 November 2001. [Newcastle, N.S.W.]: Australian Geomechanics Society (Newcastle Chapter), 2001.

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4

Richard, Chesley, Melaro Eric, Owens Karen, South Carolina. Recycling Market Development Advisory Council., South Carolina. Center for Waste Minimization., and South Carolina. Office of Solid Waste Reduction and Recycling., eds. It's everyone's business: A how-to-guide for reducing waste for South Carolina businesses and organizations. 2nd ed. [Columbia, S.C.]: S.C. Department of Commerce's Recycling Market Development Advisory Council, 2004.

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5

Australia. Waste disposal: A report from the Senate Standing Committee on Environment, Recreation and the Arts (Parliamentary paper / Parliament of the Commonwealth of Australia). Parliament of the Commonwealth of Australia, 1994.

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6

Environmental geotechnics: Proceedings of the 2nd Australia and New Zealand Conference on Environmental Geotechnics-GeoEnvironment 2001, Newcastle, New South Wales, Australia 28-30 November 2001. Australian Geomechanics Society (Newcastle Chapter), 2001.

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7

Lindenmayer, David, Damian Michael, Mason Crane, Sachiko Okada, Daniel Florance, Philip Barton, and Karen Ikin. Wildlife Conservation in Farm Landscapes. CSIRO Publishing, 2016. http://dx.doi.org/10.1071/9781486303113.

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An increasing number of Australians want to be assured that the food and fibre being produced on this continent have been grown and harvested in an ecologically sustainable way. Ecologically sustainable farming conserves the array of species that are integral to key ecological processes such as pollination, seed dispersal, natural pest control and the decomposition of waste. Wildlife Conservation in Farm Landscapes communicates new scientific information about best practice ways to integrate conservation and agriculture in the temperate eucalypt woodland belt of eastern Australia. It is based on the large body of scientific literature in this field, as well as long-term studies at 790 permanent sites on over 290 farms extending throughout Victoria, New South Wales and south-east Queensland. Richly illustrated, with chapters on birds, mammals, reptiles, invertebrates and plants, this book illustrates how management interventions can promote nature conservation and what practices have the greatest benefit for biodiversity. Together the new insights in this book inform whole-of-farm planning. Wildlife Conservation in Farm Landscapes is an ideal resource for land managers and farmers interested in integrating farming and environmental values and anyone interested in biodiversity in woodlands and agricultural zones. Recipient of a 2017 Whitley Awards Certificate of Commendation for Conservation in Action

Частини книг з теми "Waste minimization South Australia":

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"Environmental Auditing of Land Contamination— Experiences in South Australia and Northern Territory." In Waste Management, 61–68. CRC Press, 2004. http://dx.doi.org/10.1201/9781482280173-10.

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"Benefits and Risks Associated with Biosolids Application to Agricultural Production Systems—Experiences from New South Wales, Australia." In Waste Management, 167–212. CRC Press, 2004. http://dx.doi.org/10.1201/9781482280173-15.

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van Dam, Koen H., Bowen Feng, Xiaonan Wang, Miao Guo, Nilay Shah, and Stephen Passmore. "Model-based decision-support for waste-to-energy pathways in New South Wales, Australia." In Computer Aided Chemical Engineering, 1765–70. Elsevier, 2019. http://dx.doi.org/10.1016/b978-0-12-818634-3.50295-2.

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Żołnierczyk, Anna K. "Nutritional Properties of Edible Insects." In Research Anthology on Food Waste Reduction and Alternative Diets for Food and Nutrition Security, 1187–209. IGI Global, 2021. http://dx.doi.org/10.4018/978-1-7998-5354-1.ch061.

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Insects are the biggest animal group on earth. They constitute as much as 80% of the animal kingdom. Over 2000 species of insects are consumed in Central and South America, Africa, Asia, Australia, and New Zealand. Currently almost 1 billion people on this planet suffer from hunger, and we must strive to increase the efficiency of food production. One of the possible solutions is to use insects as a source of food. An important advantage of insect production is the high environmental safety compared to conventional livestock. Conventional animal husbandry is responsible for at least 18% of total greenhouse gas emissions and large consumption of drinking water. A much smaller amount of water is used to produce insect meat and insects require far less feed. Production of insect protein requires much less land and energy than the more widely consumed forms of animal protein. The nutritional usefulness of edible insects varies depending on the species, on the stage of development of the insect and the method of breeding and feeding. Insects have a high nutritional value. They are a rich source of protein which includes all eight essential amino acids (phenylalanine, isoleucine, leucine, lysine, methionine, threonine, tryptophan, and valine). Edible insects contain on average 10-30% of fat in dry matter and they are good source of edible oil which contains more than 50% of polyunsaturated fatty acids (PUFA) desirable for nutritional and health reasons. The average energy value of edible insects is about 400-500 kcal/100g of dry matter. Insects also contain a variety of water soluble or lipophilic vitamins and minerals. Their consumption can build a well-balanced diet. Insects can be regarded as safe, if properly managed and consumed, but international food regulations are needed.
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Lacey, Justine, and Phil Heywood. "The Ethics of Regional Water Planning." In Advances in Environmental Engineering and Green Technologies, 183–200. IGI Global, 2010. http://dx.doi.org/10.4018/978-1-61520-775-6.ch013.

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Providing water infrastructure in times of accelerating climate change presents interesting new problems. Expanding demands must be met or managed in contexts of increasingly constrained sources of supply, raising ethical questions of equity and participation. Loss of agricultural land and natural habitats, the coastal impacts of desalination plants and concerns over re-use of waste water must be weighed with demand management issues of water rationing, pricing mechanisms and inducing behavior change. This case study examines how these factors impact on infrastructure planning in South East Queensland, Australia: a region with one of the developed world’s most rapidly growing populations, which has recently experienced the most severe drought in its recorded history. Proposals to match forecast demands and potential supplies for water over a 20 year period are reviewed by applying ethical principles to evaluate practical plans to meet the water needs of the region’s activities and settlements.
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HEATH, ANTHONY, and SIN YI CHEUNG. "The Comparative Study of Ethnic Minority Disadvantage." In Unequal Chances. British Academy, 2007. http://dx.doi.org/10.5871/bacad/9780197263860.003.0001.

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Ethnic minority disadvantage in the labour market has been a matter of growing concern in many developed countries in recent years. Discrimination on the basis of ascriptive factors, such as social origins or ethnicity, is generally regarded to be a source of economic inefficiency and waste. More importantly, it is a source of social injustice and social exclusion. This book explores ethnic inequalities in the labour market, particularly with respect to access to jobs. It examines whether ethnic minorities compete on equal terms in the labour market with equally qualified members of the charter populations and focuses on the experiences of the ‘second generation’, that is, the children of migrants who have themselves grown up and been educated in the countries of destination. In addition to the classic immigration countries of Australia, Canada, Israel, and the United States, the book also covers the major new immigration countries of Western Europe, such as Austria, Belgium, France, Germany, and Sweden, as well as South Africa.

Тези доповідей конференцій з теми "Waste minimization South Australia":

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Waggitt, Peter, and Mike Fawcett. "Completion of the South Alligator Valley Remediation: Northern Territory, Australia." In ASME 2009 12th International Conference on Environmental Remediation and Radioactive Waste Management. ASMEDC, 2009. http://dx.doi.org/10.1115/icem2009-16198.

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13 uranium mines operated in the South Alligator Valley of Australia’s Northern Territory between 1953 and 1963. At the end of operations the mines, and associated infrastructure, were simply abandoned. As this activity preceded environmental legislation by about 15 years there was neither any obligation, nor attempt, at remediation. In the 1980s it was decided that the whole area should become an extension of the adjacent World Heritage, Kakadu National Park. As a result the Commonwealth Government made an inventory of the abandoned mines and associated facilities in 1986. This established the size and scope of the liability and formed the framework for a possible future remediation project. The initial program for the reduction of physical and radiological hazards at each of the identified sites was formulated in 1989 and the works took place from 1990 to 1992. But even at this time, as throughout much of the valley’s history, little attention was being paid to the long term aspirations of traditional land owners. The traditional Aboriginal owners, the Gunlom Land Trust, were granted freehold Native Title to the area in 1996. They immediately leased the land back to the Commonwealth Government so it would remain a part of Kakadu National Park, but under joint management. One condition of the lease required that all evidence of former mining activity be remediated by 2015. The consultation, and subsequent planning processes, for a final remediation program began in 1997. A plan was agreed in 2003 and, after funding was granted in 2005, works implementation commenced in 2007. An earlier paper described the planning and consultation stages, experience involving the cleaning up of remant uranium mill tailings and other mining residues; and the successful implementation of the initial remediation works. This paper deals with the final planning and design processes to complete the remediation programme, which is due to occur in 2009. The issues of final containment design and long term stewardship are addressed in the paper as well as some comments on lessons learned through the life of the project.
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Schwarz, Stephen C., and Leah K. Richter. "Brightstar Solid Waste and Energy Recycling Facility: An Innovative Waste to Energy Technology." In 10th Annual North American Waste-to-Energy Conference. ASMEDC, 2002. http://dx.doi.org/10.1115/nawtec10-1012.

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The Brightstar Environmental Solid Waste and Energy Recycling Facility (SWERF) is a municipal solid waste (MSW) to energy facility utilizing a gasification (pyrolysis) process. At this time, the only operational SWERF is in New South Wales, Australia. While pyrolysis of MSW is not in itself new, the Brightstar technology is believed to have reached a sufficient level of development, and to incorporate sufficient new features, to qualify as new and cutting edge. This paper presents findings from a trip to Australia to inspect the facility, as well as the results of a Request for Proposals process for a municipal client in Florida. Analysis includes process, environmental, and economic factors.
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Moore, Tahli, and Hao Zhang. "Life Cycle GHG Assessment of Mixed Construction and Demolition Waste Treatment for End of Life Recovery Facility Design: A Sydney, Australia Case Study." In ASME 2020 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/detc2020-22578.

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Abstract Historically in Australia, mixed Construction and Demolition waste, and Commercial and Industrial waste has been traditionally landfilled. As environmental impacts of landfilling is becoming more evident New South Wales policy makers and innovators have begun exploring an incineration strategy to use such waste to generate electricity. The objective of this study is to utilise life cycle assessment to evaluate GHG emissions from this waste treatment strategy and the environmental impact of a case study facility, in Sydney Australia. The system boundary includes the thermal treatment of waste through incineration, the electricity generation from the steam turbine and air pollution control processes involved within. The functional unit is based on 1 tonne of input mixed Construction and Demolition waste and Commercial and Industrial waste. GHG emissions are calculated and the result shows that the facility generates 0.994 MWh/tonne waste and 1.16 tCO2e/MWh electricity. This emission is lower than a brown coal fired powerplant emission factor 1.31 tCO2e/MWh. The results from this study assists understanding and policy making for the future of Energy-from-Waste as part of the generation mix in New South Wales, Australia.
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Smith-Briggs, Jane, Dave Wells, Tommy Green, Andy Baker, Martin Kelly, and Richard Cummings. "The Australian National Radioactive Waste Repository: Environmental Impact Statement and Radiological Risk Assessment." In ASME 2003 9th International Conference on Radioactive Waste Management and Environmental Remediation. ASMEDC, 2003. http://dx.doi.org/10.1115/icem2003-4865.

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The Environmental Impact Statement (EIS) for the proposed Australian National Repository for low and short-lived intermediate level radioactive waste was submitted to Environment Australia for approval in the summer of 2002 and has subsequently undergone a consultancy phase with comments sought from all relevant stakeholders. The consultancy period is now closed and responses to the comments have been prepared. This paper describes some of the issues relevant to determining the radiological risk associated with the repository to meet the requirements of the EIS. These include a brief description of the three proposed sites, a description of the proposed trench design, an analysis of the radioactive waste inventory, the proposed approach to developing waste acceptance criteria (WAC) and the approach taken to determine radiological risks during the post-institutional control phase. The three potential sites for the repository are located near the Australian Department of Defence site at Woomera, South Australia. One site is inside the Defense site and two are located nearby, but outside of the site perimeter. All have very similar, but not identical, topographical, geological and hydrogeological characteristics. A very simple trench design has been proposed 15 m deep and with 5 m of cover. One possible variant may be the construction of deeper borehole type vaults to dispose of the more active radioactive sources. A breakdown of the current and predicted future inventory will be presented. The current wastes are dominated in terms of volume by some contaminated soils, resulting from experiments to extract U and Th, and by the operational wastes from the HIFAR research reactor at ANSTO. A significant proportion of the radionuclide inventory is associated with small volumes of sources held by industry, medical, research and defence organisations. The proposed WAC will be described. These are based on the current Australian guidelines and best international practice. The preliminary radiological risk assessment considered the post-institutional control phase in detail with some 12 scenarios being assessed. These include the impact of potential climate change in the region. The results from the risk assessment will be presented and discussed. The assessment work is continuing and will support the license application for construction and operation of the site. Please note that this is not the final assessment for the licence application.
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Verma, Alok K., Harsh Hirkannawar, and Jyotsna Devulapalli. "Design of Simulation Tools for Training Programs in Lean Manufacturing." In ASME 2005 International Mechanical Engineering Congress and Exposition. ASMEDC, 2005. http://dx.doi.org/10.1115/imece2005-79073.

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Lean Manufacturing is a powerful philosophy, which advocates minimization of waste throughout the value stream both within the organization and enterprise which includes the supply chain. A concept, which was first used by automobile manufacturers to enhance their operational efficiencies, Lean focuses on driving out non-value added activities from a company’s operation, while streamlining its value added activities. A number of companies in the United States have adopted the Lean Manufacturing philosophy to reduce cost and increase efficiency. To augment the existing training programs five new simulation tools in Ship Design Processes, Supply Chain Integration, Ship Repair Processes, Value Stream Mapping and Scheduling were developed under a grant from National Shipbuilding Research Program (NSRP) by Old Dominion University, Northrop Grumman Newport News and South Tidewater Association of Ship Repairers. The paper will discuss the design, development and implementation of two of these new simulation tools.

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