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Proposes two concepts for the empirical analysis of society‐nature interrelations: first, socio‐economic metabolism – the material and energy flows between societies and their natural environment and second, the colonization of nature – the sum of deliberate interventions into natural systems aimed at their “improvement” with respect to socio‐economic goals. Discusses empirical examples for sustainability indicators, focusing on landscape processes, and relates land use to the analysis of material and energy flows.

The purpose of this paper is to present a methodological approach to support qualitative analysis of waste flows in food supply chains. The methodological framework introduced allows the identification of circular food waste flows that can maximise the sustainability of food supply chains.

Following a qualitative approach, circular economy perspectives are combined with core industrial ecology concepts in the specification of a standardised analytical method to map food waste flows and industrial synergies across a supply chain.

The mapped waste flows and industrial linkages depict two time-related scenarios: (1) current scenarios showing the status quo of existing food waste flows, and (2) future scenarios pointing out circular flows along the supply chain. The future scenarios inform potential alternatives to take waste flows up the food waste hierarchy.

The qualitative approach does not allow generalisations of findings out of the scope of the study. The framework is intended for providing focussed analysis, case by case. Future research involving mixed methods where quantitative approaches complement the qualitative perspectives of the framework would expand the analytical perspective.

The framework provides a relatively low-cost and pragmatic method to identify alternatives to minimise landfill disposals and improve the sustainability of food supply chains. Its phased methodology and standardised outcomes serve as a referential basis to inform not only comparative analysis, but also policymaking and strategic decisions aimed at transforming linear food supply chains into circular economy ecosystems.

This paper gives a bibliographical review of the finite element methods (FEMs) applied to the analysis of ceramics and glass materials. The bibliography at the end of the paper contains references to papers, conference proceedings and theses/dissertations on the subject that were published between 1977‐1998. The following topics are included: ceramics – material and mechanical properties in general, ceramic coatings and joining problems, ceramic composites, ferrites, piezoceramics, ceramic tools and machining, material processing simulations, fracture mechanics and damage, applications of ceramic/composites in engineering; glass – material and mechanical properties in general, glass fiber composites, material processing simulations, fracture mechanics and damage, and applications of glasses in engineering.

The reduction of the “metabolism” of the human economy has become one of the central themes of recent environmental and economic research and policy focused upon paths for achieving global sustainable development. Since the late 1980s, there has emerged a diverse array of “physical economy” approaches that utilise some form of material flow analysis (MFA) to quantify the pattern of flows of material and energy into, within, and out of the economic system. In principle, the reduction of the human socioeconomic metabolism, and appropriate changes in technology and consumption, are highly consistent with Buddhist economics. Indeed, MFA may be one of the most valuable devices for encouraging and implementing a global “green” technoeconomic paradigm that helps realize the type of benefits proffered under the vision of Buddhist economics. This paper describes the links between methodology or potential application of MFA and the central themes of the Buddhist economic path to the long‐term, harmonious co‐existence of humans within the natural environment.

The paper aims to assess two sustainability metric methodologies, material flow analysis (MFA) and integrated sustainable cities assessment method (ISCAM), as applied practically to an Irish settlement, in order to compare utility and transparency for stakeholders and policy makers.

Both methods were applied to an Irish settlement, namely Tipperary Town, with MFA measuring efficiency of resource usage, as measured by urban metabolic efficiency, and the ISCAM method simulating alternative scenarios as well as calculating the divergence or otherwise of current or business as usual (BAU) trends from more sustainable scenarios.

It was found that both methods have high data requirements, presenting a need for proxy analysis and disaggregation, with the ISCAM method requiring data functionally matched to a time series and over a long time framework. The ISCAM method may also require more advanced extrapolation methods than the simple linear extrapolation employed in the analysis for statistical robustness to reflect behaviour modes more complex than the deterministic behaviour assumed for the selected indicators. A material flow analysis (MFA) was undertaken for household food and waste and it was found that there was a high metabolic efficiency.

This paper was restricted to an application of two methodologies by time constraints and thus was unable to appraise a more comprehensive range of sustainability appraisal options, for example, ecological footprints.

It applies novel methodologies in an Irish context, further highlights the need for more sustainable policy development in an urban setting and was aimed at policy makers at national and local levels.

In spite of having a number of general‐purpose algorithms for solving plant layout problems, facility planners may still face a challenging task to adjust these algorithms to handle special, but not uncommon, layout problems. The purpose of this study is to propose a new method for addressing the impact of overhead space utilization on a plant layout solution.

A new method for adjusting material flow under a mixed floor and overhead material handling condition is incorporated in an existing plant layout procedure. A case study involving the layout improvement in a lawn mower engine assembly facility is presented to illustrate the effectiveness of the proposed method.

The analysis of solutions for the case study shows that the layout generated by the proposed modified material flow approach is a more economical solution. The case also shows, when it is important to optimize the use of space, the overhead space should be considered as part of any methodology for designing a good layout.

The proposed modified material flow approach can be applied to any facility where the use of overhead space for material handling is justifiable by limited floor space and/or by high cost of land. The proposed method can be applied to small to medium size problems with minimal computational effort. However, as the size of facility grows, the manual calculation becomes more time consuming and potentially erratic.

This paper should be useful to both researchers and practitioners who deal with overhead space utilization in designing facility layouts.

The study visualizes the link between environment accounting & triple bottom line, quantitative environmental reporting & standard method, voluntary environmental disclosure & legal requirement, size of company & volume of environmental disclosure, material flow analysis & life cycle assessment to achieve sustainable development in Bangladeshi corporation. Therefore, the purpose of the study is to investigate the role of these factors to achieve sustainable development in Bangladeshi corporation. To investigate the role of these factors, ten factors that significantly contribute to achieve sustainable development were determined. A set of closed-minded questionnaire was developed on the basis of these factors to collect the data from employees & employers. Questionnaire was administered by using statistical tools such as matrix, cross tabulation & Paired Samples Tests as a data collection tool and analyses. Research finding shows that sustainability of corporation was associated with the performance of economic, social, and environment. Other factors like quantitative environmental reporting, standard method, voluntary environmental disclosure, legal requirement, size of the company, volume of environmental disclosure, material flow analysis & life cycle assessment were found that they worked as a complement to enhance the performance of economic, social, and environment to achieve sustainable development in Bangladeshi corporation.

The purpose of this paper is to quantify the carbon emissions emitted by two different typical apartment units representative of two different construction periods in Kosovo due to main construction materials as a consequence of embodied energy.

The present study uses a three-step (bottom-up) process-based life cycle analysis of the construction material set for two different apartment units. The current study uses material analysis. Embodied CO₂ is estimated by multiplying material masses with the corresponding ECO₂ coefficients (kg CO₂/kg). Due to the lack of a comprehensive Kosovo database, data from an international database are utilized. The results provide practical baseline indicators for the contribution of each material in terms of mass and embodied CO₂.

Results of quantitative research find that apartment unit representative of the old communist-era construction produces 50 percent more embodied CO₂ emissions than an apartment unit that is representative of modern construction in Kosovo. The study finds that this difference comes mainly because of the utilization of larger quantities of steel, concrete, and precast fabricated concrete in the apartment unit that is representative of the old communist era.

The calculation of embodied CO₂ emissions for major construction materials in typical apartments in Kosovo can help in the development of national databases in the future. The availability of such databases could help the construction industry in Kosovo to open up to new sustainable design approaches since such databases and evaluations performed in the national context in Kosovo could help the builders in selecting, assessing and using environmentally friendly materials during the design or refurbishment stage of a building.

This paper is the first investigation of the embodied carbon emission in two different typical apartment building structures in Kosovo.

The study proposes Material Flow Analysis (MFA) methodology as a tool to measure and qualify food waste in the Italian beef supply chain in each stage of the food supply chain, from farm to fork. In particular, the authors attempt to: (1) measure resources consumption and waste generation toward companies' and policymakers' sustainable evaluations; (2) enhance consumers' education in the field of agri-food resilience and sustainability.

MFA is applied to the entire Italian sector of beef consumed as packaged fresh product in 2020, during the Covid-19 pandemic. The analysis regards bovine, which represent roughly one-third of the national meat flow. To collect data, bottom-up and top-down mixed approach is applied. Subsequently, MFA results are used to calculate the wastage-related losses in terms of embedded natural resources (e.g. water, energy).

In 2020, it results that the Italian meat industry slaughtered more than 1.15 Mt of bovine to produce approximately 0.29 Mt of fresh meat, 0.69 Mt of by-products and over 0.015 Mt of food waste at households, while 0.15 Mt of beef meat is destined to catering services and food industry (out-of-boundaries). In terms of hidden natural resources, it emerged that, on average, more than 94bn m3 of water, approximately 101,000 TJ of energy and over 11,500 t of PET and PE trays are required to sustain the entire beef system.

This research is one of the few studies proposing MFA methodology as a tool to measure food waste and hidden associated flows in the agri-food sector. This analysis shows its utility in terms of natural resources (water, energy, materials) and waste quality/quantity evaluation, hidden flows accounting and development of new educational strategies toward food waste minimization and sustainability at household consumption.

Aims to use simple ratios as sustainability indicators to evaluate the environmental intensity in local regions and industrial sectors. These ratios could be compared across regions and industrial sectors to give a comprehensive evaluation of sustainability.

A total of 16 industrial categories (agriculture, mining, food, fiber, pulp, chemical, coal and petrol, cement, steel, metal, non‐ferrous metals, construction, energy supply, transport, service, and commercial) were considered, using data from the national physical distribution census, the national and prefectural input‐output tables, and the comprehensive energy statistics for Japan in 1995. The objective environmental load items were carbon dioxide, nitric oxide, sulfuric oxide, and suspended particulate matter emissions.

The regions included all 47 Japanese prefectures and the data for each prefecture considered 16 industrial categories based on the national physical distribution census and national input‐output tables for 1995. The ratio of the primary energy supply to the total material input for service industries ranged from 0.1 to 0.5 TOE/10³ ton for the 47 prefectures.

Not all the variations in these sustainability indicators have yet been examined and there are probably other complicated relationships between sustainability and regional or industrial characteristics. More effort needs to be put into estimating eco‐efficiency or eco‐intensity, considering recycled energy or material utilization in order to develop a practical method of evaluating regional or industrial sustainability.

Several life cycle approaches used to quantify environmental efficiency related to energy and material flows were investigated as applications of life cycle tools in emerging markets, including the service industry and public sector.

The novelty of the investigation lies in analyzing detailed energy flow characteristics and in combining energy flow and material flow. Another objective of this paper is to present a current case‐study experience in one type of eco‐intensity analysis for Japanese service industries.