Soil Heavy Metal(loid) Pollution and Phytoremediation Potential of Native Plants on a Former Gold Mine in Ghana

n/

One-step activation of residual wood – a contribution to the circular economy

Please click Additional Files below to see the full abstract

Assessing the performance of a waste management system towards a circular economy in the Global South: The case of Marrakech (Morocco)

Waste management is essential for the safety and wellbeing of any society; it also helps to tackle global problems, such as climate change and resource scarcity. To support the evolution of waste management systems (WMSs) towards a circular economy (CE), assessment methods are applied. This paper shows, using the case of Marrakech (Morocco), how a novel holistic approach called WMS development stage concept (WMS-DSC) is applied to assess WMSs and determine measures promoting a CE. The approach enables a simplified derivation of measures that are useful to municipal decision makers and consists of five stages; stage 1 is equal to a WMS lacking essential WM elements and stage 5 describes a functioning CE. The approach was specifically designed to be transferable to other Global South cities through the categorization into these universal stages. The results from the WMS-DSC show that components related to energy recovery and waste recycling are classified in stage 1. For the latter, a slight development towards stage 2 can be assumed due to the planned activities in Marrakech. The components “collection and transport” and “prevention and reuse” are mainly in stage 2. Nevertheless, the components “governance”, “sector and market” and “waste disposal” are assigned to stages 2 and 3 with a stronger trend towards stage 4. The results show that in Marrakech and Morocco, CE is still in its infancy, and with this current state, it is hard to achieve. However, 33 measures were determined to improve the WMS of Marrakech and promote a CE

Nationaler Energie- und Klimaplan (NEKP) für Österreich - Wissenschaftliche Bewertung der in der Konsultation 2023 vorgeschlagenen Maßnahmen [National Energy and Climate Plan (NEKP) for Austria - Scientific assessment of the measures proposed in the 2023 consultation]

Um den globalen Klimawandel zu bremsen, seine Auswirkungen abzumildern und eine nach-haltige Zukunft für junge und zukünftige Generationen zu gestalten, sind internationale Koor-dination sowie umfassende nationale Umsetzungspläne für Klimamaßnahmen unerlässlich. Vor diesem Hintergrund hat das Bundesministerium für Klimaschutz, Umwelt, Energie, Mobi-lität, Innovation und Technologie (BMK) nach Einbindung der relevanten anderen österreichi-schen Bundesministerien Ende Juni 2023 den Entwurf eines integrierten nationalen Energie- und Klimaplans (NEKP) für Österreich (Periode 2021-2030) vorgelegt. Dieser Entwurf stand im Sommer 2023 zur Kommentierung offen, um eine breite Beteiligung von öffentlichen und privaten Institutionen und Personen sicherzustellen. In order to slow down global climate change, mitigate its effects and shape a sustainable future for young and future generations, international coordination and comprehensive national implementation plans for climate measures are essential. Against this background, the Federal Ministry for Climate Protection, Environment, Energy, Mobility, Innovation and Technology (BMK), after involving the relevant other Austrian federal ministries, presented the draft of an integrated national energy and climate plan (NEKP) for Austria at the end of June 2023 ( Period 2021-2030). This draft was open for comment in summer 2023 to ensure broad participation from public and private institutions and individuals

Emissions from mechanically-biologically treated waste landfills at field scale

Modern waste management tends towards greater sustainability in landfilling, with the implementation of strategies such as the pretreatment of solid waste. This work assesses the behaviour of rejects from a refining stage of mechanically-biologically treated municipal solid waste at the landfill. The main results of 18 months' monitoring of an experimental pilot cell with waste from a full-scale plant are presented. This first stages are expected to be the most problematic period for this type of waste. The evolution of the temperature and the composition of leachate and gas at various points within the cell are included. During the first weeks, pollutant concentrations in the leachate exceeded the reference ranges in the literature, coinciding with a rapid onset of methanogenic conditions. However, there was a quick wash, reducing concentrations to below one third of the initial values before the first year. pH values influenced concentrations of some pollutants such as copper. These results indicate that, right from the beginning of disposal, such facilities should be prepared to treat a high pollution load in the leachate and install the gas emissions control elements due to the rapid onset of methanogenesis.This work is funded by the Spanish Ministry of Economics and Competitiveness through the CTM2012-35055 project. The project is financed jointly by the European Regional Development Fund, FEDER (operational period 2007-2013). The authors wish to thank the Government of Cantabria, through the public company MARE, and TirCantabria, the landfill operator company, for their collaboration

Detection, Composition and Treatment of Volatile Organic Compounds from Waste Treatment Plants

Environmental policies at the European and global level support the diversion of wastes from landfills for their treatment in different facilities. Organic waste is mainly treated or valorized through composting, anaerobic digestion or a combination of both treatments. Thus, there are an increasing number of waste treatment plants using this type of biological treatment. During waste handling and biological decomposition steps a number of gaseous compounds are generated or removed from the organic matrix and emitted. Different families of Volatile Organic Compounds (VOC) can be found in these emissions. Many of these compounds are also sources of odor nuisance. In fact, odors are the main source of complaints and social impacts of any waste treatment plant. This work presents a summary of the main types of VOC emitted in organic waste treatment facilities and the methods used to detect and quantify these compounds, together with the treatment methods applied to gaseous emissions commonly used in composting and anaerobic digestion facilities

Infrarot-Thermographie zur Ueberwachung von Flaechenbiofiltern

Within the area of biological waste treatment, mostly biological waste air treatment systems are used, predominantly, surface biofilters. In order to use the biological cleaning capacity optimally, the waste air flow through biofilters needs to be distributed evenly. Monitoring of biofilters in technical scale treatment plants shows that an uneven flow through the biofilters commonly occurs. Uneven flow leads to the formation of locally overloaded zones with high flow rates, in which the filter breaks through. At the same time hardly flowed through biofilter zones arise in other parts of the biofilter. Hence, the designed cleaning capacity of the biofilter is not more ensured. Consequently, the emissions are only partly prevented and, in particular, the odour emissions continue to cause nuisance for the neighbouring residents of the plant. The present work is concerned with the above outlined problems. In particular, the objective of this study was to determine a method for monitoring performance of surface biofilters based on evaluation of a flow through pattern. For the purpose, an infrared thermography technique was applied. The selected technique enables simultaneous monitoring of the entire surface of a biofilter. The developed monitoring method has been experimentally verified on various biofilters. The applicability range of the method has been experimentally determined. Experiments with both, active and passive thermography have been performed. It has been proven that the temperature distribution on the surface of a biofilter correlates well with the flow through rate and thus, indirectly, with the flue gas emissions. (orig.)Available from TIB Hannover: RN 7868(136) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekSIGLEDEGerman