Search

Your search keyword '"Damien Giurco"' showing total 88 results
Start Over Author "Damien Giurco" Database OpenAIRE
88 results on '"Damien Giurco"'

3. Power relations are central to shaping collaborative governance of the urban sharing economy

Author

Jun Cao, Jason Prior, Damien Giurco, and Dasong Gu

Subjects
General Arts and Humanities, General Social Sciences, General Economics, Econometrics and Finance, General Business, Management and Accounting, General Psychology
Abstract

Since its rise in the early 2000s, the sharing economy has expanded and developed rapidly worldwide. While the sharing economy can boost resource-use efficiency and encourage sustainable urban living, it also challenges urban governance. Recently, a collaborative governance (CG) approach involving public and private partnerships has been adopted in various global cities to address these governance dilemmas. However, the influence of stakeholder power relations on the CG of the sharing economy remains inadequately explored in the literature. This article argues that multi-actor collaboration can be enhanced by clarifying how power relations shape effective governance, actor engagement, shared motivation, and capacity for joint actions. This article draws on practical insights by discussing examples of the governance practices of urban bike-sharing programs to demonstrate how the nature of public-private power relations can result in specific (and quite different) forms of CG. This article will help CG researchers, policymakers, urban planners, and communities understand CG practices in the new era of shared cities and global cities.

Published
2023

4. Mainstreaming climate change mitigation actions in Nepal: Influencing factors and processes

Author

Scott Kelly, Damien Giurco, Bishal Baniya, and Prem Prakash Aryal

Subjects
Sustainable development, 010504 meteorology & atmospheric sciences, Conceptualization, Geography, Planning and Development, 010501 environmental sciences, Management, Monitoring, Policy and Law, Mainstreaming, Private sector, 01 natural sciences, Climate change mitigation, Green growth, Greenhouse gas, Political science, 05 Environmental Sciences, 07 Agricultural and Veterinary Sciences, 16 Studies in Human Society, International development, Environmental planning, Environmental Sciences, 0105 earth and related environmental sciences
Abstract

This study aims to investigate the influencing factors and the processes for incorporating climate change mitigation actions into policies in the non-environment sector in Nepal. We use semi-structured interviews with policy actors such as national and sub-national policymakers, and respondents from the private sector and international development organizations active in Nepal. We also use thematic, narrative, and focused coding to analyze narrative data obtained from 12 respondents, and qualitative analysis of textual data from six non-environment sector policies to generate insights into the mainstreaming of climate change mitigation actions. A major finding from the study is that global environment-related initiatives like the Paris Agreement and the Sustainable Development Goals, and the green growth concept that aims to mitigate greenhouse gas (GHG) emissions, are influencing the policy discourse in Nepal. Consequently, climate change mitigation actions are integrated either as add-ons or as overriding policy objectives in non-environment sector policies. Our conceptualization of mainstreaming moves beyond the mere integration of policy objectives to focus on the collaborative practices of policy actors, the influencing factors, and the processes for incorporating climate change mitigation actions across non-environment sector policies.

Published
2021

5. Government and Private Company Collaboration in the Governance of Shared Mobility Schemes: A Case Study of Dockless Bike-Sharing Schemes in Sydney, Australia

Author

Jason Prior, Jun Cao, and Damien Giurco

Subjects
Renewable Energy, Sustainability and the Environment, shared mobility schemes, dockless bike-sharing schemes, public-private collaboration, integrative framework for collaborative governance, governance, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law, 12 Built Environment and Design
Abstract

While a growing body of studies has investigated the collaborative governance (CG) of dockless bike-sharing schemes (DBSS) worldwide, few offer close descriptions and analyses of stakeholder interactions in specific social contexts. Our study fills this gap by examining the development of CG of DBSS in Sydney, Australia between 2017 and 2020. The methodology is guided by an Integrative Framework for CG, drawing on qualitative analysis of policy documentation and semi-structured interviews with key DBSS participants from the public and private sector. Our findings reveal context-specific drivers and dynamics that shaped the development of particular forms of CG within Sydney’s DBSS.

Published
2022

7. Maximizing the effectiveness of carbon emissions abatement in China across carbon communities

Author

Li Huang, Scott Kelly, Xunpeng Shi, Kangjuan Lv, Xuan Lu, and Damien Giurco

Subjects
Economics and Econometrics, General Energy, Energy, 0906 Electrical and Electronic Engineering, 0913 Mechanical Engineering, 1402 Applied Economics
Abstract

The invisible and complex transfer of embodied carbon emissions makes the traditional production or consumption approach insufficient to inform emissions abatement actions because carbon communities have emerged during the transmission procedure of embodied carbon emissions. The carbon community—a group of sectors with more intensive embodied carbon emissions trades within the group than outside—provides the missing critical information about carbon abatement beyond the commonly used production and consumption approaches. This research aims to detect the carbon communities and examine the effect of community structure on sectors' direct carbon emissions. Unlike the industrial agglomeration in traditional economics and management studies, where the border is predefined in a geographical or administrative region, the hybrid input-output analysis and network analysis method detects the carbon communities data-driven, focusing on the embodied carbon emissions trades. Moreover, the hierarchical linear model examines the effect of community structure on sectors' direct carbon emissions to inform climate change policy-making and planning. The findings suggest around 19 carbon communities existing in China, which can advise local governments on their external cooperation strategies for a synergy. In addition, the regression results indicate that the increasing size and density of carbon communities can help mitigate sectors' direct carbon emissions.

Published
2022

8. Scopes 1, 2, and 3 Industry Emissions and Future Pathways

Author

Sven Teske, Kriti Nagrath, Sarah Niklas, Simran Talwar, Alison Atherton, Jaysson Guerrero Orbe, Jihane Assaf, and Damien Giurco

Abstract

The Scope 1, 2, and 3 emissions analysed in the OECM are defined and are presented for the 12 sectors analysed: (1) energy, (2) power and gas utilities, (3) transport, (4) steel industry, (5) cement industry, (6) farming, (7) agriculture and forestry, (8) chemical industry, (9) aluminium industry, (10) construction and buildings, (11) water utilities, and (12) textiles and leather industry. The interconnections between all energy-related CO2 emissions are summarized with a Sankey graph.

Published
2022

10. Nexus between economy-wide metal inputs and the deterioration of sustainable development goals

Author

Yasushi Kondo, David Sussman, Damien Giurco, Wataru Takayanagi, Susumu Tohno, Keisuke Nansai, Kenichi Nakajima, Shigemi Kagawa, and Yosuke Shigetomi

Subjects
Sustainable development, Economics and Econometrics, Natural resource economics, 0211 other engineering and technologies, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Economic Justice, Country level, Scale (social sciences), 021108 energy, Business, Waste Management and Disposal, Nexus (standard), 0105 earth and related environmental sciences, Panel data
Abstract

This study investigates, at the country level, the adverse effects of changes in metal inputs on the achievement of sustainable development goals (SDGs). It also highlights the relationships between metals use and various socio-economic consequences that urgently require decoupling in order to achieve the SDGs. We performed panel data analysis to evaluate, on a national scale and over a ten-year period (2004–2013), the impact of changes in the material flows of 11 metals on 96 SDG indicators corresponding to the 17 SDGs defined by the UN. On average, an increase in the material flow of the targeted metals was found to be correlated with a deterioration in approximately 10% of the 96 indicators. Among the affected SDGs, the adverse impact of metals on SDG 3 (Health), SDG 8 (Economic Growth), and SDG 16 (Peace, Justice, and Strong Institutions) was particularly noteworthy. More SDGs were negatively impacted in metal-mining countries than in metal-importing countries.

Published
2019

11. On the Theoretical Conceptualisations, Knowledge Structures and Trends of Green New Deals

Author

Zaheer Allam, Ayyoob Sharifi, Samantha Sharpe, Damien Giurco, IAE Paris - Sorbonne Business School, Hiroshima City University, and University of Technology Sydney (UTS)

Subjects
020209 energy, Geography, Planning and Development, TJ807-830, Climate change, 02 engineering and technology, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, 03 medical and health sciences, bibliometric analysis, environmental policy, Political science, Green growth, Green New Deal, 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, Regional science, GE1-350, green new deal, 030304 developmental biology, 0303 health sciences, Contextualization, decarbonization, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, COVID-19, Bibliographic coupling, green growth, Field (geography), Environmental sciences, 13. Climate action, Sustainability, [SHS.GESTION]Humanities and Social Sciences/Business administration, 12 Built Environment and Design, Externality
Abstract

International audience; The increasing impacts of climate change, coupled with the Greta Thunberg effect, the findings of the Intergovernmental Panel on Climate Change (IPCC) reports, and varied environmental policy documents, are pointing to the need for urgent and cohesive climate action and mitigation frameworks. One potent solution, gaining global acceptance, is that of the Green New Deal (GND), positioned as a radical rethinking of political and economic structures in view of pushing sustainability at the forefront of national, regional, and global issues. With the model rapidly gaining ground in various geographies, and in different forms in view of contextualization needs, there is a need to better understand its evolution, knowledge structures, and trends. This paper thus sets forth to provide an understanding of the evolution and implementation of GND through a bibliometric analysis and science mapping techniques using VOSviewer and CiteSpace to identify the thematic focus of 1174 articles indexed in the Web of Science since 1995. To understand the thematic evolution of the field over time, we divided the study period into three sub-periods, namely 1995–2014, 2015–2019, and 2020–2021. These sub-periods were determined considering important milestones related to GNDs. Term co-occurrence analyses were then conducted to understand thematic focus and associated trends. Also, co-citation analysis and bibliographic coupling were other methods applied to identify major sources, authors, publications, and countries that have made more contributions to the development of research on GNDs. The findings of this paper can help both researchers and policy makers understand the evolution and trends of GNDs to better formulate GNDs strategies and policies in accordance with varying needs and geographies.

Published
2021

12. A clustering solution for analyzing residential water consumption patterns

Author

Damien Giurco, Michael Blumenstein, Khoi Nguyen, Rodney Anthony Stewart, Shamsur Rahim, and Tanvir Ahmed

Subjects
Demand management, Information Systems and Management, 010504 meteorology & atmospheric sciences, Computer science, Population, 0207 environmental engineering, 02 engineering and technology, Interval (mathematics), computer.software_genre, 01 natural sciences, Management Information Systems, Water conservation, Peak demand, Artificial Intelligence, 11. Sustainability, Artificial Intelligence & Image Processing, 020701 environmental engineering, Cluster analysis, education, 0105 earth and related environmental sciences, education.field_of_study, 08 Information and Computing Sciences, 15 Commerce, Management, Tourism and Services, 17 Psychology and Cognitive Sciences, 6. Clean water, Data set, 13. Climate action, Data analysis, Data mining, computer, Software
Abstract

Water utility companies in urban areas face two major challenges: ensuring there is enough water for everyone during prolonged drought and maintaining adequate water pressure during the hours of peak demand. These issues can be overcome by applying data analytics and machine learning to the data gathered from digital water meters. For water conservation and demand management strategies to be effective, utility companies need to gain a better understanding of consumer behaviours, habits and routines. To accomplish this goal, we adapted a clustering approach to reveal residential water consumption patterns within metered data. In the experiment, we used two data sets (engineered features data set as well as the times of use and weighted probabilities of use data set) based on the data collected over 10 months from 306 households in Melbourne, Australia. For the engineered features data set, first, we identified the number of optimal clusters. We then performed extensive experiments to find the best clustering approach in terms of performance evaluation and clustering quality. We chose the hierarchical agglomerative clustering technique based on the nature of the data and the objective of the study. We observed that for the engineered features data set, k-means is the best performing clustering technique after considering performance metrics. For the other data set, we found that the number of clusters varies based on the type of water-consumption event, type of day (i.e., weekday or weekend), profiling interval and probability of use. In addition, we observed that insight into tap-water usage could be used to determine the population’s adaptation of hygiene practices in an unprecedented time, such as the COVID-19 pandemic. Finally, we recommend that future clustering studies also employ aligned socio-demographic data and other key features.

Published
2021

13. Changing policy paradigms: How are the climate change mitigation-oriented policies evolving in Nepal and Bangladesh?

Author

Bishal Baniya, Damien Giurco, and Scott Kelly

Subjects
Government, Operationalization, Public economics, business.industry, Geography, Planning and Development, Climate change, Public policy, Management, Monitoring, Policy and Law, Climate change mitigation, Sustainable transport, Agriculture, Political science, 05 Environmental Sciences, 07 Agricultural and Veterinary Sciences, 16 Studies in Human Society, business, Inclusion (education), Environmental Sciences
Abstract

The inclusion of climate mitigation actions in the Nationally Determined Contributions and climate policies of low-income countries such as Nepal and Bangladesh means that policymakers are seeking to address both types of responses to climate change. This study assesses changes in policy paradigms pertinent to climate mitigation, in Nepal and Bangladesh for the period from 1992 to 2018. Policy paradigm refers to the framework of policymakers' ideas and strategies that influence the formulation of policies across different aspects. This research develops and uses an analytical framework which considers the following aspects of public policy: (i) problems and focus; (ii) content (policy instruments and financial resources); (iii) institutions and strategic interactions; and (iv) global environment-related initiatives. Relevant policies (18 for Bangladesh and 17 for Nepal) were analyzed and thematically coded using NVivo software. While most aspects showed notable change over time, the institutions and strategic interactions aspect showed only incremental change. Although primarily focussed on adaptation, a new policy paradigm that seems to have emerged post-2005 for Nepal and Bangladesh focuses on low carbon development, access to energy, sustainable transport, and sustainable agricultural practices. To operationalize the new policy paradigms in both countries, economic and market-based policy instruments that utilize the government's internal funding will need to support policies to minimize the impacts of changes in official development assistance.

Published
2021

15. Total material requirement for the global energy transition to 2050: A focus on transport and electricity

Author

Eiji Yamasue, Elsa Dominish, Keisuke Nansai, Benjamin McLellan, Damien Giurco, and Takuma Watari

Subjects
Economics and Econometrics, Resource (biology), Offset (computer science), business.industry, 0211 other engineering and technologies, 02 engineering and technology, 010501 environmental sciences, Environmental economics, Energy transition, 01 natural sciences, Electricity generation, Production (economics), Environmental science, 021108 energy, Electricity, business, Waste Management and Disposal, Nexus (standard), Energy (signal processing), 0105 earth and related environmental sciences
Abstract

Global energy transitions could fundamentally change flows of both minerals and energy resources over time. It is, therefore, increasingly important to holistically and dynamically capture the impacts of large-scale energy transitions on resource flows including hidden flows such as mine waste, as well as direct flows. Here we demonstrate a systematic model that can quantify resource flows of both minerals and energy resources under the energy transition by using stock-flow dynamics and the concept of Total Material Requirement (TMR). The proposed model was applied to the International Energy Agency’s scenarios up to 2050, targeting 15 electricity generation and 5 transport technologies. Results indicate that the global energy transition could increase TMR flows associated with mineral production by around 200–900% in the electricity sector and 350–700% in the transport sector respectively from 2015 to 2050, depending on the scenarios. Such a drastic increase in TMR flows is largely associated with an increased demand for copper, silver, nickel, lithium and cobalt, as well as steel. Our results highlight that the decarbonization of the electricity sector can reduce energy resource flows and support the hypothesis that the expansion of low-carbon technologies could reduce total resource flows expressed as TMR. In the transport sector, on the other hand, the dissemination of Electric Vehicles could cause a sharp increase in TMR flows associated with mineral production, which could offset a decrease in energy resource flows. Findings in this study emphasize that a sustainable transition would be unachievable without designing resource cycles with a nexus approach.

Published
2019

16. A systematic review of empirical methods for modelling sectoral carbon emissions in China

Author

Damien Giurco, Kangjuan Lv, Scott Kelly, and Li Huang

Subjects
Bibliometric analysis, Index (economics), Renewable Energy, Sustainability and the Environment, Computer science, 020209 energy, Strategy and Management, 05 social sciences, 02 engineering and technology, Decomposition analysis, Industrial and Manufacturing Engineering, Empirical research, Climate change mitigation, Greenhouse gas, 050501 criminology, 0202 electrical engineering, electronic engineering, information engineering, Regional science, Research questions, China, 0505 law, General Environmental Science
Abstract

A number of empirical methods have been developed to study China's sectoral carbon emissions (CSCE). Measuring these emissions is important for climate change mitigation. While several articles have reviewed specific methods, few attempts conduct a systematic analysis of all the major research methods. In total 807 papers were published on CSCE research between 1997 and 2017. The primary source of literature for this analysis was taken from the Web of Science database. Based on a bibliometric analysis using knowledge mapping with the software CiteSpace, the review identified five common families of methods: 1) environmentally-extended input-output analysis (EE-IOA), 2) index decomposition analysis (IDA), 3) econometrics, 4) carbon emission control efficiency evaluation and 5) simulation. The research revealed the main trends in each family of methods and has visualized this research into ten research clusters. In addition, the paper provides a direct comparison of all methods. The research results can help scholars quickly identify and compare different methods for addressing specific research questions.

Published
2019

18. Advanced household profiling using digital water meters

Author

Damien Giurco, Khoi Nguyen, Michael Blumenstein, Rodney Anthony Stewart, and Shamsur Rahim

Subjects
Environmental Engineering, 0208 environmental biotechnology, Public policy, Water, 02 engineering and technology, General Medicine, 010501 environmental sciences, Management, Monitoring, Policy and Law, Recommender system, 01 natural sciences, Data science, 6. Clean water, Water consumption, 020801 environmental engineering, Domain (software engineering), Shower, Water conservation, Water Supply, Data analysis, Water Resources, Profiling (information science), Waste Management and Disposal, Environmental Sciences, 0105 earth and related environmental sciences
Abstract

Advanced householder profiling using digital water metering data analytics has been acknowledged as a core strategy for promoting water conservation because of its ability to provide near real-time feedback to customers and instil long-term conservation behaviours. Customer profiling based on household water consumption data collected through digital water meters helps to identify the water consumption patterns and habits of customers. This study employed advanced customer profiling techniques adapted from the machine learning research domain to analyse high-resolution data collected from residential digital water meters. Data analytics techniques were applied on already disaggregated end-use water consumption data (e.g., shower and taps) for creating in-depth customer profiling at various intervals (e.g., 15, 30, and 60 min). The developed user profiling approach has some learning functionality as it can ascertain and accommodate changing behaviours of residential customers. The developed advanced user profiling technique was shown to be beneficial since it identified residential customer behaviours that were previously unseen. Furthermore, the technique can identify and address novel changes in behaviours, which is an important feature for promoting and sustaining long-term water conservation behaviours. The research has implications for researchers in data analytics and water demand management, and also for practitioners and government policy advisors seeking to conserve valuable potable-water resources.

Published
2021

19. Green growth in Nepal and Bangladesh: Empirical analysis and future prospects

Author

Scott Kelly, Bishal Baniya, and Damien Giurco

Subjects
Sustainable development, Energy, Natural resource economics, business.industry, Technological change, 020209 energy, Energy mix, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Renewable energy, General Energy, Green growth, Greenhouse gas, 0202 electrical engineering, electronic engineering, information engineering, Business, Productivity, 0105 earth and related environmental sciences, Renewable resource
Abstract

Nepal and Bangladesh aim to reduce their greenhouse gas emissions as part of their commitments to implementing the Paris Climate Agreement and United Nations Sustainable Development Goals (SDGs). In addition, both countries are seeking to move from being categorized as low to middle-income countries. This study analyzes the empirical evidence on greening of economic growth in Nepal and Bangladesh between 1985 and 2016, and looks ahead to 2030 to discuss the future prospects in their efforts to deliver on both environmental and economic goals. To analyze their historical progress, six green growth indicators are used, and to look ahead to 2030, energy and material consumption models are used. For both countries, energy and material productivity improvements were mainly driven by structural changes in an economy, which is a transition from agricultural to service-based economies. Yet these are found to be insufficient to deliver green growth. An increase in the share of renewable energy in the energy mix and the absolute reduction of energy and material consumption in future are found to be important not only for greening the growth but also for delivering abovementioned commitments. Technological changes such as the substitution of biomass by electricity from renewable resources can be a part of sustainable strategy for reconciling the climate mitigation actions with graduation to the middle-income country category.

Published
2021

20. Projecting the global impact of fossil fuel production from the Former Soviet Union

Author

Jianliang Wang, Damien Giurco, Steve Mohr, James Ward, Mohr, Steve, Wang, Jianliang, Ward, James, and Giurco, D.

Subjects
Fossil Fuel Projection, Resource (biology), Natural resource economics, business.industry, Fossil fuel, Energy Engineering and Power Technology, 0914 Resources Engineering and Extractive Metallurgy, Geotechnical Engineering and Engineering Geology, Fossil Fuel Production, fossil fuel projection, fossil fuel production, Former Soviet Union, Production (economics), Environmental science, business, Soviet union, Research Article
Abstract

Detailed projections of the Former Soviet Union (FSU) fossil fuel production has been created. Russian production has been modelled at the region (oblast) level where possible. The projections were made using the Geologic Resource Supply-Demand Model (GeRS-DeMo). Low, Best Guess and High scenarios were created. FSU fossil fuels are projected to peak between 2027 and 2087 with the range due to spread of Ultimately Recoverable Resources (URR) values used. The Best Guess (BG) scenario anticipates FSU will peak in 2087 with production over 170 EJ per year. The FSU projections were combined with rest of the world projections (Mohr et al. 2015b), the emissions from the High scenario for the world are similar to the IPCC A1 AIM scenario.Supplementary informationThe online version contains supplementary material available at 10.1007/s40789-021-00449-x.

Published
2021

21. Ensure Sustainable Consumption and Production Patterns

Author

Damien Giurco

Subjects
Sustainable development, Consumption (economics), Natural resource economics, Circular economy, Supply chain, Commodity, Sustainable consumption, Business, Business model, Material efficiency
Abstract

This chapter discusses the integration of mining with responsible consumption and production and rates it as a work in progress. It highlights the need to reduce adverse environmental and social impacts, not only from the mining and production of ores at individual sites, but also in transforming the systems and supply chains across the globe to sustainable patterns of consumption with increased material efficiency, looking towards a low-carbon circular economy. Current trends include the growing adoption of renewable energy in mining and minerals processing, better tailings and post-closure management, increased provenance and traceability through ‘responsible’ certification programs, design for circularity, through to a conceptualization of mining beyond processing terrestrial ores (or even from oceans and asteroids) to increased ‘urban mining’ of metals from scrap products and infrastructure and ultimately, business models providing metal-based services rather than commodity sales of ores and ingots. Partial progress against this sustainable development goal is being made, driven by investors, shareholders and societal pressure on mining companies and from supplier expectations of end-users of metals.

Published
2020

22. Machine Learning and Data Analytic Techniques in Digital Water Metering: A Review

Author

Rodney Anthony Stewart, Shamsur Rahim, Khoi Nguyen, Michael Blumenstein, and Damien Giurco

Subjects
Demand management, smart metering data, lcsh:Hydraulic engineering, Data management, Geography, Planning and Development, residential water, Aquatic Science, Recommender system, Machine learning, computer.software_genre, Biochemistry, Personalization, Water conservation, personalisation, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, Cluster analysis, data analytics, Water Science and Technology, recommender system, lcsh:TD201-500, digital metering data, Event (computing), business.industry, water conservation, machine learning, Data analysis, Artificial intelligence, business, computer
Abstract

Digital or intelligent water meters are being rolled out globally as a crucial component in improving urban water management. This is because of their ability to frequently send water consumption information electronically and later utilise the information to generate insights or provide feedback to consumers. Recent advances in machine learning (ML) and data analytic (DA) technologies have provided the opportunity to more effectively utilise the vast amount of data generated by these meters. Several studies have been conducted to promote water conservation by analysing the data generated by digital meters and providing feedback to consumers and water utilities. The purpose of this review was to inform scholars and practitioners about the contributions and limitations of ML and DA techniques by critically analysing the relevant literature. We categorised studies into five main themes: (1) water demand forecasting; (2) socioeconomic analysis; (3) behaviour analysis; (4) water event categorisation; and (5) water-use feedback. The review identified significant research gaps in terms of the adoption of advanced ML and DA techniques, which could potentially lead to water savings and more efficient demand management. We concluded that further investigations are required into highly personalised feedback systems, such as recommender systems, to promote water-conscious behaviour. In addition, advanced data management solutions, effective user profiles, and the clustering of consumers based on their profiles require more attention to promote water-conscious behaviours.

Published
2020

23. Global metal use targets in line with climate goals

Author

Benjamin McLellan, Takuma Watari, Christoph Helbig, Keisuke Nansai, Kenichi Nakajima, and Damien Giurco

Subjects
Natural resource economics, Urbanization, Climate change, General Chemistry, 010501 environmental sciences, 01 natural sciences, Zinc, Metals, ddc:330, Environmental Chemistry, Environmental science, Production (economics), Economic Development, Goals, 0105 earth and related environmental sciences, Line (formation)
Abstract

Metals underpin essential functions in modern society, yet their production currently intensifies climate change. This paper develops global targets for metal flows, stocks, and use intensity in the global economy out to 2100. These targets are consistent with emissions pathways to achieve a 2 °C climate goal and cover six major metals (iron, aluminum, copper, zinc, lead, and nickel). Results indicate that despite advances in low-carbon metal production, a transformative system change to meet the society's needs with less metal is required to remain within a 2 °C pathway. Globally, demand for goods and services over the 21st century needs to be met with approximately 7 t/capita of metal stock-roughly half the current level in high-income countries. This systemic change will require a peak in global metal production by 2030 and deep decoupling of economic growth from both metal flows and stocks. Importantly, the identified science-based targets are theoretically achievable through such measures as efficient design, more intensive use, and longer product lifetime, but immediate action is crucial before middle- and low-income countries complete full-scale urbanization.

Published
2020

24. Environmental impacts and demand-supply balance of minerals for the transition to a low-carbon energy system

Author

Benjamin McLellan, Takuma Watari, Elsa Dominish, Tetsuo Tezuka, and Damien Giurco

Subjects
Balance (accounting), chemistry, Computer Networks and Communications, Renewable Energy, Sustainability and the Environment, Environmental engineering, Energy Engineering and Power Technology, chemistry.chemical_element, Business, Electrical and Electronic Engineering, Energy system, Carbon, Supply and demand
Published
2020

26. Integrated intelligent water-energy metering systems and informatics: Visioning a digital multi-utility service provider

Author

Dragan Savic, Edoardo Bertone, Michael Blumenstein, Steven Kenway, Andrea Castelletti, Cara Beal, Rodney Anthony Stewart, Damien Giurco, Andrea Turner, Oz Sahin, Ariane Liu, Andrea Cominola, Christos Makropoulos, Hong Zhang, Abel Silva Vieira, Matteo Giuliani, Khoi Nguyen, and Panagiotis Kossieris

Subjects
Digital metering, Demand management, Environmental Engineering, Process management, Computer science, 020209 energy, Big data, 02 engineering and technology, 010501 environmental sciences, Multi-utility, Smart metering, Water-energy nexus, Software, Ecological Modeling, 01 natural sciences, 0202 electrical engineering, electronic engineering, information engineering, 0105 earth and related environmental sciences, business.industry, Service provider, Transformative learning, Informatics, Systems architecture, business, Nexus (standard)
Abstract

© 2018 Elsevier Ltd Advanced metering technologies coupled with informatics creates an opportunity to form digital multi-utility service providers. These providers will be able to concurrently collect a customers’ medium-high resolution water, electricity and gas demand data and provide user-friendly platforms to feed this information back to customers and supply/distribution utility organisations. Providers that can install low-cost integrative systems will reap the benefits of derived operational synergies and access to mass markets not bounded by historical city, state or country limits. This paper provides a vision of the required transformative process and features of an integrated multi-utility service provider covering the system architecture, opportunities and benefits, impediments and strategies, and business opportunities. The heart of the paper is focused on demonstrating data modelling processes and informatics opportunities for contemporaneously collected demand data, through illustrative examples and four informative water-energy nexus case studies. Finally, the paper provides an overview of the transformative R&D priorities to realise the vision.

Published
2018

27. Integrating Circular Economy Strategies with Low-Carbon Scenarios: Lithium Use in Electric Vehicles

Author

Elsa Dominish, Benjamin McLellan, Damien Giurco, Kenichi Nakajima, Takuma Watari, and Keisuke Nansai

Subjects
Battery (electricity), Electric Power Supplies, business.industry, Circular economy, Climate change, General Chemistry, 010501 environmental sciences, Environmental economics, Lithium, 01 natural sciences, Carbon, Electrification, Resource (project management), Electricity, Software deployment, Environmental Chemistry, Environmental science, Recycling, business, 0105 earth and related environmental sciences
Abstract

Electrification of the transport sector will support its decarbonization, yet significantly change material requirements. This calls for an integrated modeling approach internalizing metal demand-supply dynamics in low-carbon scenarios to support the Paris agreement on climate change and sustainable material circulation. Here we develop a step toward the integrated simulation of energy-materials scenarios by unifying a stock-flow dynamics model for low-carbon scenarios using linear programming. The modeling framework incorporates lithium supply from both mines and end-of-life (EoL) recycling for projected use in electric vehicles on a global basis. The results show that supply constraints, which could become apparent from around 2030 in the case of current recycling rates (

Published
2019

28. Using the waste Kuznet's curve to explore regional variation in the decoupling of waste generation and socioeconomic indicators

Author

Ben Madden, Damien Giurco, Steve Mohr, and Nick Florin

Subjects
Economics and Econometrics, Municipal solid waste, Circular economy, 0211 other engineering and technologies, 02 engineering and technology, Decoupling (cosmology), 010501 environmental sciences, Tipping point (climatology), 01 natural sciences, Geography, Economic indicator, Regional variation, Econometrics, 021108 energy, Waste Management and Disposal, Socioeconomic status, Environmental Sciences, 0105 earth and related environmental sciences, Statistical hypothesis testing
Abstract

Decoupling of resource consumption from economic growth is a key principle in the transition towards a circular economy. This study explores regional variation in the decoupling of waste generation from mean income in the Australian state of New South Wales (NSW), following the Waste Kuznet's curve (WKC) hypothesis. The WKC hypothesis tests for the existence of a relationship between waste and economic indicators conforming to an inverted-U shape that may indicate decoupling. A geographically and temporally weighted regression (GTWR) model is used to test the WKC hypothesis for municipal waste from 2011 to 2015. We identify municipalities conforming to the WKC hypothesis, and examine the socioeconomic and urban morphological characteristics of these municipalities. Results show that waste policy must be targeted to consider local variability in socioeconomics. Municipalities across rural NSW were found to conform to the WKC over the time frame. WKC-conforming municipalities had higher per-capita rates of waste generation, and lower mean incomes compared to non-conforming municipalities. Ratios of tipping point (global maximum) to mean income for WKC conforming municipalities were estimated between 0.8 and 2, indicating that these municipalities are in stages of relative, rather than absolute, decoupling. This study demonstrates the application of the WKC for examining decoupling, and highlights the importance of considering variations in regional characteristics when assessing the decoupling of waste generation from income. Findings also broadly suggest regionally specific policy making is required for circular economy transitions in NSW.

Published
2019

29. Carbon communities and hotspots for carbon emissions reduction in China

Author

Xunpeng Shi, Damien Giurco, Scott Kelly, Kangjuan Lv, Xuan Lu, and Li Huang

Subjects
China, Natural resource economics, Input–output model, 020209 energy, Geography, Planning and Development, input–output analysis, TJ807-830, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, Betweenness centrality, 0202 electrical engineering, electronic engineering, information engineering, GE1-350, network analysis, 0105 earth and related environmental sciences, Consumption (economics), Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, Environmental sciences, climate change, Greenhouse gas, Business, Electricity, Emissions trading, carbon emissions, Centrality, policy
Abstract

With China&rsquo, s commitment to peak its emissions by 2030, sectoral emissions are under the spotlight due to the rolling out of the national emission trading scheme (ETS). However, the current sector policies focus either on the production side or consumption while the majority of sectors along the transmission were overlooked. This research combines input&ndash, output modelling and network analysis to track the embodied carbon emissions among thirty sectors of thirty provinces in China. Based on the large-data resolution network, a two-step network reduction algorithm is used to extract the backbone of the network. In addition, network centrality metrics and community detection algorithms are used to assess each individual sector&rsquo, s roles, and to reveal the carbon communities where sectors have intensive emission links. The research results suggest that the sectors with high out-degree, in-degree or betweenness can act as leverage points for carbon emissions mitigation. In addition to the electricity sector, which is included in the national ETS, the study also found that the metallurgy and construction sectors should be prioritized for emissions reduction from national and local levels. However, the hotpots are different across provinces and thus provincial specific targeted policies should be formed. Moreover, there are nineteen carbon communities in China with different features, which provides direction for provincial governments&rsquo, external collaboration for synergistic effects.

Published
2019

30. Designing backcasting scenarios for resilient energy futures

Author

Damien Giurco, Benjamin McLellan, Yusuke Kishita, Go Yoshizawa, Itsuki C. Handoh, and Kazumasu Aoki

Subjects
Fault tree analysis, business.industry, Computer science, Process (engineering), 020209 energy, Environmental resource management, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Variety (cybernetics), Risk analysis (engineering), Order (exchange), Management of Technology and Innovation, Sustainability, 0202 electrical engineering, electronic engineering, information engineering, Business and International Management, business, Resilience (network), Futures contract, Applied Psychology, Backcasting, 0105 earth and related environmental sciences
Abstract

The concept of resilience is a crucial part in crafting visions of desirable futures designed to withstand the widest variety of external shocks to the system. Backcasting scenarios are widely used to envision desirable futures with a discontinuous change from the present in mind. However, less effort has been devoted to developing theoretical frameworks and methods for building backcasting scenarios with a particular focus on resilience, although resilience has been explored in related sustainability fields. This paper proposes a method that helps design backcasting scenarios for resilient futures. A characteristic of the method is to delineate “collapse” futures, based upon which resilient futures are described to avoid the various collapsed states. In the process of designing backcasting scenarios, fault tree analysis (FTA) is used to support the generation of various risk factors and countermeasures to improve resilience. In order to test the effectiveness of the proposed method, we provide a case study to describe resilient energy systems for a Japanese community to 2030. Four expert workshops involving researchers from different disciplines were organized to generate diversified ideas on resilient energy systems. The results show that three scenarios of collapsed energy systems were described, in which policy options to be taken toward achieving resilient energy systems were derived.

Published
2017

31. Sustainable energy transitions require enhanced resource governance

Author

Kenichi Nakajima, Damien Giurco, Keisuke Nansai, and Takuma Watari

Subjects
Resource (biology), Renewable Energy, Sustainability and the Environment, business.industry, Natural resource economics, 020209 energy, Strategy and Management, Circular economy, Supply chain, 05 social sciences, Fossil fuel, 02 engineering and technology, Building and Construction, Natural resource, Industrial and Manufacturing Engineering, Greenhouse gas, 050501 criminology, 0202 electrical engineering, electronic engineering, information engineering, Electricity, business, Environmental degradation, 0505 law, General Environmental Science
Abstract

The global transition to fundamentally decarbonized electricity and transport systems will alter the existing resource flows of both fossil fuels and metals; however, such a transition may have unintended consequences. Here we show that the decarbonization of both the electricity and transport sectors will curtail fossil fuel production while paradoxically increasing resource extraction associated with metal production by more than a factor of 7 by 2050 relative to 2015 levels. Importantly, approximately 32–40% of this increase in resource extraction is expected to occur in countries with weak, poor, and failing resource governance, indicating that the impending mining boom may result in severe environmental degradation and unequal economic benefits in local communities. A suite of circular economy strategies, including lifetime extension, servitization, and recycling, can mitigate such risks, but they may not fully offset the growth in resource extraction. Our findings underscore the importance of institutional instruments that enhance the resource governance of entire low-carbon technology supply chains, along with circular economy practices. In the absence of such actions, the decarbonization of electricity and transport sectors may pose an ethical conundrum in which global carbon emissions are reduced at the expense of an increase in socio-environmental risks at local mining sites.

Published
2021

32. Spatial modelling of municipal waste generation: Deriving property lot estimates with limited data

Author

Nick Florin, Steve Mohr, Damien Giurco, and Ben Madden

Subjects
Economics and Econometrics, Municipal solid waste, Scale (chemistry), Circular economy, 0211 other engineering and technologies, Waste minimisation, Context (language use), Waste collection, 02 engineering and technology, 010501 environmental sciences, Environmental economics, 01 natural sciences, Metropolitan area, 05 Environmental Sciences, 09 Engineering, 12 Built Environment and Design, Environmental science, 021108 energy, Waste Management and Disposal, Environmental Sciences, 0105 earth and related environmental sciences, Resource recovery
Abstract

Given recent circular economy policy and waste minimisation targets, there is a significant opportunity to fundamentally change the way waste is managed in Australia, and re-focus waste management to promote resource recovery and efficiency. Detailed data on household waste generation can assist decision makers in targeting waste minimisation incentives, improving resource recovery and circularity, identifying specific technology and infrastructure gaps and informing future development. Unfortunately, high-resolution spatial estimates of waste generation at the property lot scale is typically unavailable. This study presents a novel spatial model developed to estimate waste generation data at the property lot level. Utilising census data at multiple spatial scales and council waste generation data, we apply our model to estimate quantities of residual waste, dry recyclables and garden waste generated for more than 1,200,000 property lots in the Sydney metropolitan area, Australia. Results show the spatial distribution of estimated household waste generation, achieving a high degree of accuracy when compared to validation data. To illustrate the application of our results in the context of identifying ideal areas for waste processing facilities, we analyse the spatial distribution of available garden waste arising from property lots. An area of intense garden waste generation was identified, indicating a supply area of approximately 13km 2 in northern Sydney that can support a facility of approximately 20,000t throughput a year. Our analytical approach presented is novel, and has practical application for locating waste processing facilities; analysing efficient kerbside waste collection services; and in informing data driven urban waste management strategies.

Published
2021

33. Online water-use feedback: household user interest, savings and implications

Author

Graeme Watkins, Ariane Liu, Damien Giurco, Pierre Mukheibir, Stuart White, and Steve Mohr

Subjects
Environmental Engineering, 020209 energy, Geography, Planning and Development, Regression analysis, Sample (statistics), 02 engineering and technology, Intervention group, Water demand management, Login, 6. Clean water, Water consumption, Sustainable urban water management, 0202 electrical engineering, electronic engineering, information engineering, Economics, Operations management, Marketing, Water use, Water Science and Technology
Abstract

© 2017 Informa UK Limited, trading as Taylor & Francis Group. This paper reports on the short- and long-term impacts of online water-use feedback provided via a smart metering trial involving 120 households in New South Wales, Australia. Near-real time water consumption feedback was provided via an online portal to half of the sample. Water consumption was uniquely analysed one year pre- and post-intervention, and in conjunction with login data. During one year of available access, the intervention group saved an overall average of 24.1 litres per household per day (L/hh/d) (4.2%). Regression analysis showed the significant savings of active users related specifically to portal login activity. Significant short-term effects persisted for 42 days, averaging at 63.1 L/hh/d. The article discusses the implications for research and practice, including a consideration of how, in addition to providing ongoing access, online portals could be leveraged further by water authorities to help meet urgent short-term supply constraints such as in drought.

Published
2017

34. Renewable hydropower generation as a co-benefit of balanced urban water portfolio management and flood risk mitigation

Author

Michael G. Porter, Oz Sahin, Rodney Anthony Stewart, and Damien Giurco

Subjects
Engineering, Energy, Flood myth, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, 02 engineering and technology, Desalination, Renewable energy, Water security, 0202 electrical engineering, electronic engineering, information engineering, Flood mitigation, Water supply network, business, Water resource management, Environmental planning, Hydropower, Risk management
Abstract

© 2016 Elsevier Ltd Understanding energy–water system interactions is critical to the effective management of urban infrastructure. This paper explores the potential for hydropower as a co-benefit in a novel operating regime for Sydney׳s main water reservoir (Warragamba Dam). Hydropower could be generated as part of storage level management in the reservoir aimed at introducing flood retention ‘airspace’ (to mitigate downstream flood risk from extreme rainfall) whilst augmenting the use of installed desalination capacity to maintain secure supplies of water. A purpose-built systems dynamics model provides the mechanism for evaluating and comparing future operating scenarios over a 25 year period (i.e. until 2040). Importantly, the findings reveal the potential for desalination plants, integrated into a populous city׳s water supply network, to satisfy a much broader planning agenda. Specifically, the study provides evidence that Sydney's interdependent goals of deferring capital intensive flood storage works, maintaining water security, better utilising existing desalination and hydropower assets, and increasing renewable energy generation can be achieved through applying systems thinking to a complex citywide water planning problem. The work also makes a valuable contribution to the energy–water nexus literature at the under-explored city-scale.

Published
2017

35. Detailed water-use feedback: A review and proposed framework for program implementation

Author

Stuart White, Ariane Liu, Damien Giurco, and Pierre Mukheibir

Subjects
Engineering, Sociology and Political Science, Economics, Management science, business.industry, 020209 energy, 02 engineering and technology, Smart water, 010501 environmental sciences, Management, Monitoring, Policy and Law, Development, 01 natural sciences, 6. Clean water, Water consumption, Risk analysis (engineering), 13. Climate action, 0202 electrical engineering, electronic engineering, information engineering, Key (cryptography), Business and International Management, business, Water use, 0105 earth and related environmental sciences
Abstract

© 2016 Elsevier Ltd Smart water metering (SWM) introduces new opportunities to engage householders about water use based on detailed information. Water utilities must decide how to embrace these opportunities, but remain hesitant due to limited available experience and knowledge, which risks delaying the benefits of involving householders more fully in SWM and more sustainable water consumption. An implementation framework is developed outlining the key strategic, practical and evaluative elements in decision-making for detailed feedback programs by drawing on the literature and first-hand experiences of two feedback trials involving SWM. Existing approaches are reviewed and recommendations are provided to advance more well-considered approaches and realise benefits regarding sustainable water use.

Published
2016

36. The potential role of desalination in managing flood risks from dam overflows: the case of Sydney, Australia

Author

Oz Sahin, Rodney Anthony Stewart, Michael G. Porter, Andrea Turner, and Damien Giurco

Subjects
Engineering, 010504 meteorology & atmospheric sciences, Strategy and Management, Population, 01 natural sciences, Desalination, Civil engineering, Industrial and Manufacturing Engineering, education, Environmental planning, 0505 law, 0105 earth and related environmental sciences, General Environmental Science, Climate pattern, education.field_of_study, Flood myth, Renewable Energy, Sustainability and the Environment, business.industry, 05 social sciences, Flooding (psychology), Building and Construction, Service provider, Water resources, Water security, 050501 criminology, business
Abstract

Shifting climate patterns are causing extreme drought and flooding across the globe. This combined with the world’s burgeoning population and insatiable thirst for water requires water service providers to think differently about the limited resources they manage. In Australia, the severe drought at the beginning of the century caused dams to fall to record levels. In response, many state governments invested heavily in rain-independent supplies such as desalination to augment and diversify traditional sources. However, extreme rainfall soon followed the drought, filled reservoirs and caused flooding in many locations leaving billions of dollars worth of damage and new water infrastructure standing idle. This is the case in Sydney, where the new desalination plant is still not used and the potential for major flooding has raised concerns over the safety of the large population downstream of the dam. This paper explores the growing need to understand the relationship between drought, flooding and infrastructure optimisation. The paper focuses on Sydney to illustrate the application of a system dynamics model. The new model explores options for raising the dam wall, offering airspace to assist flood protection, in contrast to options to lower the dam full supply level and utilise idle desalination capacity to fill the water security gap created. The illustrative results, using publicly available data, find that by lowering the dam water levels and operating desalination, significant flood protection can be achieved at a similar cost to raising the dam wall. The paper demonstrates the importance of optimising existing and new water resources for multiple purposes and how system dynamics modelling can assist water service providers in these complex investigations.

Published
2016

37. Predicting Household Water Consumption Events: Towards a Personalised Recommender System to Encourage Water-conscious Behaviour

Author

Khoi Nguyen, Michael Blumenstein, Rodney Anthony Stewart, Shamsur Rahim, and Damien Giurco

Subjects
Irrigation, Water conservation, Scope (project management), business.industry, Computer science, Water industry, Environmental economics, Recommender system, business, Metropolitan area, Water use, Water utility, Water consumption
Abstract

© 2019 IEEE. Recommender systems assist customers to make decisions; however, the modest adoption of digital technology in the water industry means no such system exists for household water users. Such a system for the water industry would suggest to consumers the most effective ways to conserve water based on their historical data from smart water meters. The advantage for water utilities in metropolitan areas is in managing demand, such as low pressure during peak hours or water shortages during drought. For customers, effective recommendations could save them money. This paper presents a novel vision of a recommender system prototype and discusses the benefits both for the consumers and the water utility companies. The success of this type of system would depend on the ability to anticipate the time of the next major water use so as to make useful, timely recommendations. Hence, the prototype is based on a long short-term memory (LSTM) neural network that predicts significant water consumption events (i.e., showers, baths, irrigation, etc.) for 83 households. The preliminary results show that LSTM is a useful method of prediction with an average root mean square error (RMSE) of 0.403. The analysis also provides indications of the scope of further research required for developing a commercially successful recommender system.

Published
2019

38. Discussion, conclusions and recommendations

Author

Bent van den Adel, Damien Giurco, Malte Meinshausen, Özcan Deniz, Johannes Pagenkopf, Thomas Pregger, and Sven Teske

Subjects
Repetition (rhetorical device), Computer science, Section (typography), Key (cryptography), Engineering ethics
Abstract

© The Author(s) 2019. The following section focuses on the main findings in all parts of the research, with priority given to high-level lessons, to avoid the repetition of previous chapters. The key findings as well as the research limitations and further research requirements are given for following topics: Renewable energy potential mapping, Transport scenario and long-term energy scenario development, power sector analysis, employment and mineral resource implications for the 2.0C and 1.5C scenarios and non-energy GHG scenarios, Policy recommendations for the energy sector with a focus on policies for buildings sector decarbonisation, for the transport and industry sector as well as a recommended political framework for power markets are provided.

Published
2019

39. Requirements for minerals and metals for 100% renewable scenarios

Author

Benjamin McLellan, Elsa Dominish, Takuma Watari, Nick Florin, and Damien Giurco

Subjects
Battery (electricity), Sustainable development, business.industry, chemistry.chemical_element, Material efficiency, Renewable energy, Electrification, chemistry, Software deployment, Environmental science, Lithium, business, Process engineering, Cobalt
Abstract

© The Author(s) 2019. This chapter explores the magnitude of the changes in patterns of material use that will be associated with the increasing deployment of renewable energy and discusses the implications for sustainable development. In particular, this chapter focuses on the increased use of lithium and cobalt, metals which are used extensively in battery technologies, and silver used in solar cells. Consistent with the strong growth in renewable energy and electrification of the transport system required in a 1.5°C scenario, the material requirements also rise dramatically, particularly for cobalt and lithium. Scenarios developed for this study show that increasing recycling rates and material efficiency can significantly reduce primary demand for metals.

Published
2019

40. Advancing household water-use feedback to inform customer behaviour for sustainable urban water

Author

Damien Giurco, Pierre Mukheibir, and Ariane Liu

Subjects
education.field_of_study, Engineering, Environmental Engineering, Smart meter, business.industry, 020209 energy, Population, Environmental resource management, 02 engineering and technology, 010501 environmental sciences, Environmental economics, 01 natural sciences, Identification (information), Scale (social sciences), 0202 electrical engineering, electronic engineering, information engineering, Metering mode, Empirical evidence, education, business, Implementation, Water use, 0105 earth and related environmental sciences, Water Science and Technology
Abstract

© IWA Publishing 2017. Sustainable water management is increasingly essential in an age characterised by rapid population growth, urban and industrial development and climate change. Opportunities to promote conservation and water-use efficiencies remain attractive in directly reducing water demand. Smart water metering and the provision of detailed water-use feedback to consumers present exciting new opportunities for improved urban water management. This paper explores two smart water metering trials in New South Wales, Australia, which provided household water consumption feedback via (i) paper end-use reports and (ii) an online portal. This combination enabled a deeper exploration of the various impacts of detailed feedback enabled via smart water metering. The positive effects uncovered by the research present an important opportunity for smart water metering feedback to contribute towards more sustainable urban water management. Their summary contributes empirical evidence on the impacts for water utilities considering embarking on the smart water metering journey with their customers. The identification of future research and policy needs sets an agenda for smart water metering to promote a sustainable digital urban water future. Larger-scale trials are now required and utilities should integrate the design and plans for scalable advanced feedback programs at the outset of smart meter implementations.

Published
2016

41. An Australian Multi-Regional Waste Supply-Use Framework

Author

Damien Giurco, Stefan Pauliuk, Manfred Lenzen, and Jacob Fry

Subjects
Computer science, 020209 energy, Supply chain, Resource efficiency, General Social Sciences, 02 engineering and technology, 010501 environmental sciences, Environmental economics, 01 natural sciences, 12. Responsible consumption, Variety (cybernetics), Environmental accounting, Waste treatment, 13. Climate action, 0202 electrical engineering, electronic engineering, information engineering, Virtual Laboratory, Production (economics), Operations management, Industrial ecology, 0105 earth and related environmental sciences, General Environmental Science
Abstract

Summary The production of waste creates both direct and indirect environmental impacts. A range of strategies are available to reduce the generation of waste by industry and households, and to select waste treatment approaches that minimize environmental harm. However, evaluating these strategies requires reliable and detailed data on waste production and treatment. Unfortunately, published Australian waste data are typically highly aggregated, published by a variety of entities in different formats, and do not form a complete time-series. We demonstrate a technique for constructing a multi-regional waste supply-use (MRWSU) framework for Australia using information from numerous waste data sources. This is the first MRWSU framework to be constructed (to the authors' knowledge) and the first sub-national waste input-output framework to be constructed for Australia. We construct the framework using the Industrial Ecology Virtual Laboratory (IELab), a cloud-hosted computational platform for building Australian multi-regional input-output tables. The structure of the framework complies with the System of Environmental-Economic Accounting (SEEA). We demonstrate the use of the MRWSU framework by calculating waste footprints that enumerate the full supply chain waste production for Australian consumers.

Published
2015

42. Motivating metrics for household water-use feedback

Author

Pierre Mukheibir, Ariane Liu, and Damien Giurco

Subjects
Economics and Econometrics, Engineering, business.industry, media_common.quotation_subject, Environmental resource management, Sample (statistics), Smart water, Environmental economics, Presentation, Market segmentation, 05 Environmental Sciences, 09 Engineering, 12 Built Environment and Design, Population growth, Water saving, Business case, business, Waste Management and Disposal, Environmental Sciences, Water use, media_common
Abstract

Motivating more sustainable water consumption is important since population growth and climate change are placing increased pressures on water supplies in Australia and elsewhere. Smart water metering creates new possibilities for feedback of detailed water-use information to householders as a signal of potential opportunities to save water, and a number of recent feedback studies have shown water saving results. However, existing literature lacks an overview of the available options for the presentation of detailed household water-use information; and research into what households understand, and value and prefer in terms of feedback. This paper introduces a framework for the possibilities for feedback; and further explores dimensions of the framework via a detailed post-intervention evaluation of a recent smart water metering trial involving detailed end-use feedback to a sample of households in New South Wales, Australia. The householder evaluation survey and interviews investigate engagement with customised water-use metrics presented during the trial, and explore wider preferences for water-use feedback. Understanding how householders relate to different types of information has an important role to play in maximising household engagement and the potential for more detailed water-use feedback to guide household water management. Therefore the framework and evaluative research findings carry implications for future deployments of residential smart water metering involving feedback. Particularly, the high level of interest and engagement of many study householders with the detailed water-use information highlights important potential for feedback, and lends support to the business case for utilities to pursue smart water metering trials and roll-outs. However, with heterogeneity of customer preferences and responses, more carefully considered approaches to water-use feedback are advised (e.g. more judicious feedback design, and potentially the use of tailoring and/or customer segmentation) to facilitate a greater contribution towards more sustainable water consumption.

Published
2015

43. Chapter 10 Australian Regional Waste Footprints

Author

Jacob Fry, Damien Giurco, Stefan Pauliuk, and Manfred Lenzen

Subjects
Consumption (economics), Waste treatment, Harm, Supply chain, Virtual Laboratory, Production (economics), Business, Environmental economics, Industrial ecology, Variety (cybernetics)
Abstract

The production of waste creates both direct and indirect environmental impacts. A range of strategies are available to reduce the generation of waste by industry and households, and to select waste treatment approaches that minimise environmental harm. However, evaluating these strategies requires reliable and detailed data on waste production and treatment. Unfortunately, published Australian waste data are typically highly aggregated, published by a variety of entities in different formats and do not form a complete time-series. We demonstrate a technique for constructing a multi-regional waste supply-use (MRWSU) framework for Australia using information from numerous waste data sources. This is the first subnational waste input–output framework to be constructed for Australia. We construct the framework using the Industrial Ecology Virtual Laboratory (IELab), a cloud-hosted computational platform for building Australian multiregional input–output tables. The structure of the framework complies with the System of Environmental-Economic Accounting (SEEA). We demonstrate the use of the MRWSU framework by calculating waste ‘footprints’ that enumerate the full domestic supply chain waste production for Australian consumers.

Published
2018

44. Correction to: Projection of Iron Ore Production

Author

Steve Mohr, Mohan Yellishetty, Damien Giurco, James Ward, and Gavin Mark Mudd

Subjects
Iron ore, engineering, Mineralogy, Production (economics), engineering.material, Projection (set theory), Geology, General Environmental Science
Published
2019

45. 'Slowing' and 'narrowing' the flow of metals for consumer goods: Evaluating opportunities and barriers

Author

Elsa Dominish, Ruth Lane, Muhammad Akbar Rhamdhani, Glen Corder, Nick Florin, Samantha Sharpe, Monique Retamal, and Damien Giurco

Subjects
material efficiency, 020209 energy, media_common.quotation_subject, Geography, Planning and Development, metals, TJ807-830, Context (language use), 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, remanufacturing, Renewable energy sources, product longevity, 0202 electrical engineering, electronic engineering, information engineering, GE1-350, Remanufacturing, 0105 earth and related environmental sciences, media_common, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Circular economy, circular economy, Environmental economics, Product type, Material efficiency, Environmental sciences, Product (business), servicisation, Service (economics), Sustainability, Business
Abstract

© 2018 by the authors. Metal resources are essential materials for many consumer products, including vehicles and a wide array of electrical and electronic goods. These metal resources often cause adverse social and environmental impacts from their extraction, supply and disposal, and it is therefore important to increase the sustainability of their production and use. A broad range of strategies and actions to improve the sustainability of resources are increasingly being discussed within the evolving concept of the circular economy. This paper uses this lens to evaluate the opportunities and barriers to improve the sustainability of metals in consumer products in Australia, with a focus on strategies that "slow" and "narrow" material flow loops. We have drawn on Allwood's characterisation of material efficiency strategies, as they have the potential to reduce the total demand for metals. These strategies target the distribution, sale, and use of products, which have received less research attention compared to the sustainability of mining, production, and recycling, yet it is vitally important for changing patterns of consumption in a circular economy. Specifically, we have considered the strategies of product longevity (life extension, intensity of use, repair, and resale), remanufacturing, component reuse, and using less material for the same product or service (digitisation, servicisation, and light-weighting). Within the Australian context, this paper identifies the strategies that have the greatest opportunity to increase material efficiency for metal-containing products (such as mobility, household appliances, and personal electronics), by evaluating current implementation of these strategies and identifying the material, economic, and social barriers to and opportunities for expanding these strategies. We find that many of these strategies have been successfully implemented for mobility, while applying these strategies to personal electronics remains the biggest challenge. Product longevity emerged as the strategy with the most significant opportunity for further implementation in Australia, as it is the most broadly applicable across product types and has significant potential for material efficiency benefits. The barriers to material efficiency strategies highlight the need for policies that broaden the focus beyond closing the loop to "slowing" and "narrowing" material loops.

Published
2018

46. Global projection of lead-zinc supply from known resources

Author

Steve Mohr, Leah Mason, Gavin Mark Mudd, Damien Giurco, and Monique Retamal

Subjects
020209 energy, chemistry.chemical_element, 02 engineering and technology, Zinc, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Lead (geology), Environmental protection, peak minerals, lead zinc mining, resource depletion, sustainable mining, 0202 electrical engineering, electronic engineering, information engineering, Production (economics), lcsh:Science, 0105 earth and related environmental sciences, Nature and Landscape Conservation, Peak minerals, Resource depletion, Tailings, Refinery, chemistry, Smelting, Environmental science, lcsh:Q
Abstract

© 2018 by the authors. Lead and zinc are used extensively in the construction and automotive industries, and require sustainable supply. In order to understand the future availability of lead and zinc, we have projected global supplies on a country-by-country basis from a detailed global assessment of mineral resources for 2013. The model GeRS-DeMo was used to create projections of lead and zinc production from ores, as well as recycling for lead. Our modelling suggests that lead and zinc production from known resources is set to peak within 15 years (lead 2025, zinc 2031). For lead, the total supply declines relatively slowly post peak due to recycling. If additional resources are found, these peaks would shift further into the future. These results suggest that lead and zinc consumers will need to plan for the future, potentially by: seeking alternative supplies (e.g., mine tailings, smelter/refinery slags); obtaining additional value from critical metals contained in lead-zinc ore deposits to counter lower grade ores; identifying potential substitutes; redesigning their products; or by contributing to the development of recycling industries.

Published
2018

47. Greening Regional Cities: The Role of Government in Sustainability Transitions

Author

Damien Giurco, Samantha Sharpe, Simon Wright, Filho, WL, Rogers, J, and Iyer-Raniga, U

Subjects
Government, Process (engineering), media_common.quotation_subject, Circular economy, education, humanities, Local community, Ingenuity, Energy independence, Scale (social sciences), Sustainability, Business, Economic system, media_common
Abstract

The scale and complexity of the ‘wicked problems’ posed by sustainability are forcing collaborations between unlikely partners. In many instances, government is choosing to play a critical role in the sustainable innovation process. Yet much of the innovation literature pushes to the fore the ingenuity of the firm, leaving government to play a secondary supporting role. Drawing on ideas from innovations and transitions theory on the role of government in supporting green niches, this paper analyses the example of an evolving biomass project in regional NSW. In particular, the paper focuses upon the role that regional government plays in supporting this community-led collaboration. Based on circular economy principles, the project aims to achieve energy independence whilst simultaneously generating bio-products for the agricultural sector. Utilising a case study methodology including in-depth semi-structured interviews with more than 20 key stakeholders from government, business and the local community, analysis of the data suggests that government is a critical actor in the innovation process; plays a multiplicity of roles across the network; and that these roles vary to a greater degree than previously suggested in the literature. A number of factors are also identified that shape these roles at different stages of the innovation process. This paper sheds new light on the critical role played by government in facilitating and leading sustainability transitions and contributes to our knowledge of sustainable innovations more broadly. It also highlights a need for more research to improve our understanding of appropriate actors at different stages of sustainability transitions.

Published
2018

49. Reprint of: The potential role of desalination in managing flood risks from dam overflows: the case of Sydney, Australia

Author

Andrea Turner, Oz Sahin, Damien Giurco, Rodney Stewart, and Michael Porter

Subjects
Renewable Energy, Sustainability and the Environment, Strategy and Management, Industrial and Manufacturing Engineering, Environmental Sciences, General Environmental Science
Abstract

© 2016 Elsevier Ltd Shifting climate patterns are causing extreme drought and flooding across the globe. This combined with the world's burgeoning population and insatiable thirst for water requires water service providers to think differently about the limited resources they manage. In Australia, the severe drought at the beginning of the century caused dams to fall to record levels. In response, many state governments invested heavily in rain-independent supplies such as desalination to augment and diversify traditional sources. However, extreme rainfall soon followed the drought, filled reservoirs and caused flooding in many locations leaving billions of dollars worth of damage and new water infrastructure standing idle. This is the case in Sydney, where the new desalination plant is still not used and the potential for major flooding has raised concerns over the safety of the large population downstream of the dam. This paper explores the growing need to understand the relationship between drought, flooding and infrastructure optimisation. The paper focuses on Sydney to illustrate the application of a system dynamics model. The new model explores options for raising the dam wall, offering airspace to assist flood protection, in contrast to options to lower the dam full supply level and utilise idle desalination capacity to fill the water security gap created. The illustrative results, using publicly available data, find that by lowering the dam water levels and operating desalination, significant flood protection can be achieved at a similar cost to raising the dam wall. The paper demonstrates the importance of optimising existing and new water resources for multiple purposes and how system dynamics modelling can assist water service providers in these complex investigations.

Published
2017

50. 'Wealth from metal waste': Translating global knowledge on industrial ecology to metals recycling in Australia

Author

Glen Corder, Damien Giurco, and Artem Golev

Subjects
Engineering, Waste management, business.industry, Natural resource economics, Mechanical Engineering, Supply chain, Global Leadership, Scrap, General Chemistry, Geotechnical Engineering and Engineering Geology, Competitive advantage, Control and Systems Engineering, Order (exchange), Production (economics), National wealth, Mining & Metallurgy, Industrial ecology, business
Abstract

© 2014 Elsevier Ltd All rights reserved. Australia's rich stocks of mineral resources have been the source of national wealth and competitive advantage in the past. However, the security of this wealth is not guaranteed into the future, and what were once considered waste materials from mining, infrastructure and products are now becoming accessible and valuable as 'above-ground' mineral resources. Globally there is growing capacity and innovation in recycling, closed-loop supply chains and Australia's role as a global leader in primary production must anticipate and adapt to the implications of a rise in the importance of recycling. However, both at a global level and in Australia, there are a broad range of factors and local influences affecting the successful application and implementation of industrial ecology beyond technical re-use solutions. This paper presents the initial outcomes from a major collaborative research project (Wealth from Waste Cluster), funded by the CSIRO Flagship Collaboration Fund and partner universities, focused on identifying viable options to 'mine' metals contained in discarded urban infrastructure, manufactured products and consumer goods. This paper presents initial estimates of the mass and current worth of metals in end-of-life products. Results from this analysis have identified that the value of metals in end-of-life products is more than AUD6 billion per year, and assuming existing recovery rates, the estimated potential for recovering metals from "waste" or end-of-life products is of the order of AUD2 billion per year. In addition a metal flow analysis of the Australian economy identified that approximately half the scrap metal collected in Australia (approximately 2.5 million tonnes per year) is currently being transported overseas which potentially could be recycled in Australia if suitable technology were available.

Published
2015

Catalog

Books, media, physical & digital resources
See catalog results