Your search keyword '"waste recovery"' showing total 9 results

1. Effects of Processing and Storage Conditions on Functional Properties of Powdered Blueberry Pomace

Author

Calabuig-Jiménez, Laura, Hinestroza-Còrdoba, Leidy Indira, Barrera Puigdollers, Cristina, Seguí Gil, Lucía, and Betoret Valls, Noelia

Subjects

waste recovery, TECNOLOGIA DE ALIMENTOS, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, air drying, Geography, Planning and Development, TJ807-830, fruit by-products, milling, antioxidant properties, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, Environmental sciences, GE1-350

Abstract

[EN] Promoting a circular economy through valorisation of food processing waste into functional ingredients is a challenge today. The combination of hot air drying with milling is a cheap and highly available option for obtaining powdered products from blueberry pomace, a residue with a large amount of fibre and a high proportion of polyphenols from the fruit. The objective of this work was to analyse the effect of drying temperature (60 degrees C and 70 degrees C) and granulometry (coarse and fine) on physicochemical properties, including antioxidant properties and monomeric anthocyanins content. The potential prebiotic effect of blueberry pomace powders, as well as their water and oil interaction properties, were also assessed. Stability of physicochemical properties over 20 weeks of storage was also evaluated. Powders obtained showed a total fibre content higher than 30% with a good proportion between insoluble and soluble fractions and a high retention of monomeric anthocyanins from fresh pomace (75% at 60 degrees C and 66% at 70 degrees C). The powders showed good water interaction properties and interesting technological properties, such as solubility and hygroscopicity, which were not affected by differences in particle size. Stability of powders' physicochemical properties was evidenced throughout the storage period., This researchwas funded by GENERALITAT VALENCIANA, grant number AICO/2017/'049.

Published

2022

2. Key Determinants of Municipal Waste Sorting in Slovakia

Author

Michal Stričík and Monika Čonková

Subjects

waste recovery, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, waste disposal, Geography, Planning and Development, waste sorting, TJ807-830, Management, Monitoring, Policy and Law, TD194-195, municipal waste, Renewable energy sources, Environmental sciences, municipal waste charging, waste management, GE1-350

Abstract

The Slovak Republic does not meet the targets of the waste economy in the long run. In order to meet these objectives, it is necessary to make changes to the current system of municipal waste management. Building on an empirical analysis, this paper focuses on the evaluation of the production of municipal waste and the factors that influence the level of municipal waste sorting as a prerequisite for the maximal re-use, recovery, or recycling of municipal waste. The type of fee for municipal waste was confirmed as the most significant factor for the higher rate of municipal waste sorting, and pertinent recommendations were suggested according to the needs of Slovak municipalities.

Published

2021

3. Environmental Innovation and Green Growth in the Repair and Maintenance of Cars—Case Study

Author

Vladimír Rudy, Naqib Daneshjo, Samer Abdo Saleh Al-Rabeei, Peter Malega, and Milan Majerník

Subjects

Sustainable development, waste recovery, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, TJ807-830, Iso standards, Management, Monitoring, Policy and Law, Business model, car repair, TD194-195, process innovation, green growth, Renewable energy sources, Environmental sciences, Globalization, Engineering management, Green growth, Environmental innovation, Production (economics), GE1-350, Waste recovery, Business, business

Abstract

The current phase of the sustainable development of production is primarily focused on innovation and environmental products and services, and on greening the economy through the implementation of standardized tools (according to ISO). The paper presents the application of results of ongoing research through case studies under particular conditions. We have expanded our previously proposed business model as an input/output transformation system, presented in our previous research that was published at the 18th International Scientific Conference “Globalization and Its Socio-Economic Consequences” in Zilina and supported by the fact that we are co-creators of STN EN ISO standards 14051:2012 (839051) and STN EN ISO 14045:2013 (839045). Here, it is supplemented by the proposal of a procedure for selecting an instrument for greening the economy according to the area of economic activities (NACE coding). The methodological principles and the proposed procedure are applied through a case study in a small car repair company.

Published

2021

4. Expert-Based Modular Simulator for Municipal Waste Processing Technology Design

Author

Ágnes Bárkányi, Attila Egedy, Attila Sarkady, Róbert Kurdi, and János Abonyi

Subjects

Renewable Energy, Sustainability and the Environment, modular simulator, sustainable waste processing, technological schemes, waste recovery, circular economy, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law

Abstract

One of the significant problems in our society is the handling and processing of the vast amount of waste produced by households and industrial processes. Nowadays, packaging material regulations are constantly changing, which can significantly impact the quality of municipal waste, requiring the continuous development and redesign of waste processing plants. Since only a few uncertain measurements (composition, mass, etc.) are available for this task, analysing and redesigning waste processing technologies is challenging. This research aims to develop a modelling and simulation concept that can integrate all the available information and can also handle the uncertainty of the measurements. The proposed modular modelling framework can serve as a basis for designing and redesigning the technologies needed to process ever-changing municipal waste. The most important steps of the framework are as follows: identifying the typical equipment, these are the elements; building models of the elements; determining the characteristic parameters of the equipment; exploring the possible relationships between the elements. For example, the information needed to define the model parameters can be gathered from measurements, industrial experience, and expert knowledge. In many cases, the data obtained represent ranges. The stationary model framework applies efficiency factors and divides the solids into substreams based on expert knowledge. Furthermore, a modular simulator framework was developed to simulate the technological schemes with various connections. The specifications for all widely used waste industrial equipment (shredders, air separators, sieves, magnetic-, eddy current-, optical-, and ballistic separators) were used to construct the developed simulator. This simulator can open new opportunities for the design of waste sorting technological networks. The model was calibrated based on expertise gained from operating the studied technology. The changes in the material parameters can be considered, and the modular simulator can lead to flexible waste sorting technologies capable of adapting to governmental and environmental regulations changes. The main result of the work is that a methodology for designing a modular simulator, model development, and a validation method has been proposed, which provides the possibility to deal with uncertainty. All this is successfully presented through the analysis of an operating waste separation system.

Published

2022

5. Opportunities and Challenges from Symbiosis of Agro-Industrial Residue Anaerobic Digestion with Microalgae Cultivation

Author

Grazia Policastro, Alessandra Cesaro, Massimiliano Fabbricino, Francesco Pirozzi, Policastro, G., Cesaro, A., Fabbricino, M., and Pirozzi, F.

Subjects

anaerobic digestion, waste recovery, wastewater treatment, microalgae technology, circular economy, mixed consortium, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law

Abstract

During the last few years, many studies have tested microalgal systems for nitrogen removal from the digestate. However, most of these studies were carried out using pure culture microalgal strains, which require aseptic conditions and thus cannot be used in full-scale applications. The aim of the present study was to explore opportunities in and challenges of the industrial symbiosis of anaerobic digestion and microalgae cultivation to enhance agro-industrial residue management. Batch tests were carried out to investigate the use of a mixed (open) microalgal consortium to treat the liquid fraction of the digestate for nitrogen removal. Preliminary experiments were performed to choose the carbon supply condition optimizing the growth of the open mixed consortium. In detail, the investigated carbon sources were bicarbonate, under two different carbon to nitrogen ratios, CO2 via the free surface and CO2 via air flushing. Further tests were conducted to compare the use of ammoniacal and nitric nitrogen sources. Then, the effectiveness of the liquid fraction of the digestate as nitrogen source was assessed. The highest biomass concentration of 1.6 g L−1 was obtained using CO2 as carbon source via air flushing as feeding strategy and ammoniacal nitrogen. Biomass production was lower (0.6 g L−1) under the digestate. Nonetheless, due to a probable symbiosis between microalgae and bacteria, a total nitrogen removal of 98.5% was achieved, which was the highest obtained in the present study. Such experimental results address the identification of the steps needed for larger-scale application of combined anaerobic digestion and mixed microalgal systems.

Published

2022

6. Life Cycle Assessment of Nitrogen Circular Economy-Based NOx Treatment Technology

Author

Bin-Le Lin, Kiyotaka Tsunemi, Tetsuya Nanba, Mianqiang Xue, Tohru Kawamoto, and Kimitaka Minami

Subjects

waste recovery, Flue gas, Reactive nitrogen, Geography, Planning and Development, chemistry.chemical_element, flue gas, TJ807-830, 010501 environmental sciences, Management, Monitoring, Policy and Law, Raw material, 010402 general chemistry, TD194-195, 01 natural sciences, environmental impact, Renewable energy sources, life cycle assessment, parasitic diseases, GE1-350, Nitrogen cycle, Life-cycle assessment, NOx, 0105 earth and related environmental sciences, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Selective catalytic reduction, Pulp and paper industry, Nitrogen, 0104 chemical sciences, Environmental sciences, nitrogen oxides, chemistry, Environmental science

Abstract

Humans are significantly perturbing the global nitrogen cycle, leading to excess reactive nitrogen in the environment. Nitrogen oxides as a key reactive nitrogen species are mainly controlled by selective non-catalytic reduction and selective catalytic reduction. Converting nitrogen oxides to ammonia, defined as ReNOx, emerges as an alternative method under a disparate design concept. However, little is known about its overall environmental performance. In this study, we conducted for the first time a life cycle assessment of ReNOx. Compared with the eco-index in the condition of 200 °C with a conversion rate of 95%, it would increase substantially in the condition of 160 °C with a conversion rate of 80% and in the case without a sound NH3 treatment. Feedstock format change, adsorption material performance deterioration, and recovery rate decline would increase the eco-index by 8%, 12%, and 18%, respectively. The eco-index was decreased by 31% in the optimized scenario with a renewable energy source and an increased conversion rate. The environmental impacts were compared with traditional methods at impact, damage, and eco-index levels. Finally, the implications on process arrangement in the flue gas system, the externality for power generation, and the contribution to the nitrogen circular economy were examined. The results can serve as a reference for its developers to improve the technology from the environmental perspective.

Published

2021

7. A Bibliometric Analysis of End-of-Life Vehicles Related Research: Exploring a Path to Environmental Sustainability

Author

Zhang Yu, Syed Abdul Rehman Khan, Hafiz Muhammad Zia-ul-haq, Muhammad Tanveer, Muhammad Jawad Sajid, and Shehzad Ahmed

Subjects

Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law, end-of-life vehicles, recycling, waste management, waste recovery, lifecycle assessment

Abstract

Considering rapid economic development and continuously increasing environmental concerns, end-of-life vehicles (ELVs) have significant socioeconomic value as a crucial waste stream. The research relating to ELVs has rapidly evolved over the last few years. However, existing review studies focus on specific research themes, and thus, fail to present a complete picture. Hence, this research intends to explain the current research scenario relating to ELVs by reviewing the critical published studies of the last 22 years. A total of 1405 research publications were extracted from the Scopus database covering the period from 2000 to 2021. Mainly employing bibliometric analysis techniques, this research analyzes the quantity of literature, researchers, institutions, countries, and research themes to understand the current status and future trends in ELV recycling and management. The results revealed a considerable rise in the number of articles published in the last five years. The key producers of influential ELV research are listed as the United States, China, and the United Kingdom. Globally, Chinese universities have the most ELV-related articles published. Similarly, Serbian researcher Vladimir Simic authored the most ELV-related articles during the research period. This article also identifies various research themes: management and recycling, resource recovery and components, life cycle evaluation, and socioeconomic effects. The results also reveal a strong association between distinct ELV research clusters.

Published

2022

8. Glass Waste3: A Preliminary Study for a New Industrial Recovery Processing

Author

Lorena Zichella, Rossana Bellopede, and Paola Marini

Subjects

glass waste, waste recovery, Glass recycling, Glass production, lcsh:TJ807-830, Geography, Planning and Development, lcsh:Renewable energy sources, Zero waste, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, Raw material, Cork, engineering.material, 01 natural sciences, media_common.cataloged_instance, European union, new process plant design, lcsh:Environmental sciences, 0105 earth and related environmental sciences, media_common, lcsh:GE1-350, bath extractor, industrial treatment, Waste management, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:Environmental effects of industries and plants, glass waste, Jig, Waste recovery, Density Separation, industrial treatment, new process plant design, bath extractor, waste separation plant, 021001 nanoscience & nanotechnology, waste separation plant, Joint research, lcsh:TD194-195, Pilot plant, density separation, engineering, Environmental science, jig, 0210 nano-technology, business

Abstract

In recent times, the selection and treatment of glass waste are implemented in processing plants where a secondary raw material (SRM) named glass cullet, which is suitable for glass production, and a waste containing a high percentage of glass (glass waste2) is obtained. In the literature, there are many studies conducted on the recovery of the cullet, while few are the studies on the recovery of the waste that is produced by cullet processing. According to the 2013 Joint Research Centre (JRC) Reference report, the cullet produces savings in terms of energy and raw materials. However, it has a high current cost and its availability is becoming difficult, therefore its use is not always economically advantageous. The goal and strategy of the European Union is zero waste. For this purpose, further treatment of glass waste has been investigated. Through the industrial treatment of the glass waste2, a glass waste3 constituted again by an SRM made of glass is obtained together with a high quantity of presumed SRM (e.g., heavy plastic, corks, iron, non-ferrous metals, etc.). The process treatment separating these SRMs from the glass waste3 is, in this case, a pilot plant that needs to be optimized in order to reach an economic and sustainable industrial process solution. In particular, the materials to be recycled are exploitable product fractions with different particle sizes and physical properties (such as density, shape and resistance). This research is based on data collected from a North Italy process plant and is aimed at solving the issue of waste in this kind of process by implementing a pilot plant already present. Representative samples of feed material (glass waste3) and different products of the pilot plant have been analyzed. Moreover, laboratory tests were executed to improve separation efficiency and to valorize the different product fractions. A flow sheet of a new treatment plant has been developed and an economic evaluation has been made. The materials that will be separated in the new plant could be traded as SRM&mdash, e.g., plastics, metals, synthetic and cork stoppers&mdash, which constitute almost 90% of the total feed of the plant.

Published

2020

9. Waste Management in Industrial Construction: Investigating Contributions from Industrial Ecology

Author

Larissa A. R. U. Freitas and Alessandra Magrini

Subjects

Engineering, 020209 energy, media_common.quotation_subject, Geography, Planning and Development, lcsh:TJ807-830, lcsh:Renewable energy sources, 02 engineering and technology, construction waste management, industrial ecology, industrial symbiosis, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Industrial symbiosis, 0202 electrical engineering, electronic engineering, information engineering, SWOT analysis, lcsh:Environmental sciences, 0105 earth and related environmental sciences, media_common, lcsh:GE1-350, Waste management, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:Environmental effects of industries and plants, lcsh:TD194-195, Service (economics), Construction waste, Cleaner production, Industrial construction, Waste recovery, Industrial ecology, business

Abstract

The need for effective construction waste management is growing in importance, due to the increasing generation of construction waste and to its adverse impacts on the environment. However, despite the numerous studies on construction waste management, recovery of construction waste through Industrial Symbiosis and the adoption of other inter-firm practices, comprised within Industrial Ecology field of study, have not been fully explored. The present research aims to investigate Industrial Ecology contributions to waste management in industrial construction. The waste management strategies adopted in two industrial construction projects in Brazil are analyzed. The main waste streams generated are identified, recycling and landfilling diversion rates are presented and waste recovery through Industrial Symbiosis is discussed. A SWOT analysis was carried out. Results demonstrate that 9% of the waste produced in one of the projects was recovered through Industrial Symbiosis, while in the other project, waste recovery through Industrial Symbiosis achieved the rate of 30%. These data reveal Industrial Symbiosis’ potential to reduce landfilling of industrial construction wastes, contributing to waste recovery in construction. In addition, results show that industrial construction projects can benefit from the following synergies common in Industrial Ecology place-based approaches: centralized waste management service, shared waste management infrastructure and administrative simplification.

Published

2017