Relevant bibliographies by topics / Sewage sludge management

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Sewage sludge management'

Author: Grafiati
Published: 7 June 2025
Last updated: 14 July 2025

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Journal articles on the topic "Sewage sludge management"

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Turlej, Tymoteusz, and Marian Banaś. "Sustainable management of sewage sludge." E3S Web of Conferences 49 (2018): 00120. http://dx.doi.org/10.1051/e3sconf/20184900120.

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The structure of municipal sewage sludge management in Poland, along with the change in legal regulations, has changed radically. The management of sewage sludge is of key importance for environmental pollution and limiting the negative impact on human health. This article presents current legal policies in Poland, methods of commonly used sewage sludge management in European countries, discusses the selection of an appropriate method for the disposal of municipal sewage sludge and an analysis of the current state of sewage sludge management in Poland. In addition, the difficulties associated with the adaptation of sewage sludge management for the requirements of sustainable development are discussed. The article contains foundations, challenges and concerns related to the thermal transformation of municipal sediments. Also forecast and directions of activities in sewage sludge management in Poland are presented.
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Aira, Manuel, Ana Gómez-Roel, and Jorge Domínguez. "Earthworms Significantly Alter the Composition, Diversity, Abundance and Pathogen Load of Fungal Communities in Sewage Sludge from Different Urban Wastewater Treatment Plants." Pathogens 14, no. 5 (2025): 409. https://doi.org/10.3390/pathogens14050409.

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Management of sewage sludge is of ongoing concern because this waste product is generated continuously and contains high levels of harmful constituents. Among these constituents, fungal pathogens are of increasing concern. Vermicomposting can reduce the amounts of bacterial pathogens in sewage sludge; however, information about the effects of earthworms on fungal pathogens is limited or non-existent. We therefore aimed to determine whether vermicomposting can control fungal pathogens present in sewage sludge. Using next-generation sequencing techniques, we characterized fungal communities in sewage sludge from eight wastewater treatment plants (WWTPs) and in casts (feces) of earthworms feeding on sewage sludge. Fungal communities in earthworm casts primarily included taxa that were absent from sewage sludges, indicating a significant change in fungal composition. Changes in fungal diversity depended on the source of sewage sludge (WWTP). All of the sewage sludges contained low levels of fungal pathogens, most of which were significantly reduced or eliminated by earthworms, such as Armillaria, Cystobasidium, Exophiala and Ophiosthoma. Moreover, earthworm gut transit enhanced beneficial (saprotrophic) fungi like Arthrobotrys, Aseroe, Crepidotus and Trichurus. Overall, digestion of sewage sludge by earthworms alone generated a mainly pathogen-free fungal community with a high proportion of saprotrophic taxa, which would enhance nutrient cycling rates.
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Przydatek, Grzegorz, and Aldona Katarzyna Wota. "Analysis of the comprehensive management of sewage sludge in Poland." Journal of Material Cycles and Waste Management 22, no. 1 (2019): 80–88. http://dx.doi.org/10.1007/s10163-019-00937-y.

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Abstract The methods of sewage sludge management in Poland have largely been determined by the legal requirements related to the Poland’s membership in the European Union. Since 1st January 2016, sewage sludge landfilling is prohibited. It must be emphasised that legal changes regarding wastewater management, along with the systematic increase in the volume of produced sludge, entail the necessity to change the existing method of sewage sludge management. This paper contains an analysis of solutions for management of sewage sludge produced in Poland over the period of 8 years. The goal of the work was an assessment of comprehensive management of sewage sludge produced in Poland from 2009 to 2016. Despite the decrease in the agricultural use of sewage sludge, their average share of 32% was the highest among other forms of sewage sludge management in Poland. Another form, related with the final stage of sewage sludge management, concerned its thermal processing. It was treated as a promising method, with a 19% increase over the analysed period. An optimal solution should be found to ensure safe management of sewage sludge.
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Królik, Dariusz, Przemysław Wypych, and Jakub Kostecki. "Sewage Sludge Management in a Sewage Treatment Plant." Civil and Environmental Engineering Reports 29, no. 3 (2019): 209–17. http://dx.doi.org/10.2478/ceer-2019-0036.

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Abstract Sewage sludge produced in municipal sewage treatment plants, because of its physicochemical and sanitary properties, is a serious threat to the environment. In order to neutralize it, various methods of processing are used, which directly affect the quantity and quality of produced sewage sludge, which in the final stage can be used naturally. Properly managed sludge management is presented on the example of a sewage treatment plant, conducting the methane fermentation process with the production of biogas.
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Stürmer, Bernhard, and Melanie Waltner. "Best Available Technology for P-Recycling from Sewage Sludge—An Overview of Sewage Sludge Composting in Austria." Recycling 6, no. 4 (2021): 82. http://dx.doi.org/10.3390/recycling6040082.

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In order to close the phosphorus cycle in the long term, efficient recycling processes are necessary to ensure that this critical nutrient can be returned to arable land. Sewage sludge recycling is of particular importance due to the relatively high phosphorus content of sewage sludge. In this article, the current recycling paths of Austrian sewage sludge are highlighted, focusing on the advantages and limitations of sewage sludge composting. In addition to nutrient contents, pollutant loads were also analyzed in order to also discuss the limitations of this recycling pathway. Therefore, data from Austrian composting plants with focus on sewage sludge are used. The results show that the currently relevant pollutants (heavy metals) are predominantly below the limits prescribed for recycling and spreading on arable land. However, in order to decide on a recycling path at an early stage, a pollutant monitoring system must be in place. Due to pollution, mono-incineration with subsequent phosphorus recovery is also currently being discussed in Austria. Mono-incineration can represent an important component of sewage sludge disposal, because some sewage sludges are not suitable for composting due to potential environmental hazards. Therefore, it is important that evidence-based limit values and measures for the reduction in pollutants for input sources are determined.
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Rosiek, Ksymena. "Directions and Challenges in the Management of Municipal Sewage Sludge in Poland in the Context of the Circular Economy." Sustainability 12, no. 9 (2020): 3686. http://dx.doi.org/10.3390/su12093686.

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Landfilling was the main method of sewage sludge disposal in Poland for decades. After Poland’s accession to the European Union (EU), many investments have been made into providing better access to tap water as well as to collect and treat municipal sewage. However, sewage sludge treatment has not been treated as an integral part of the implementation of wastewater management obligations. Stricter European Union regulations regarding the management of municipal sewage sludge (MSS) pose new challenges for Poland. The aim of this study was to analyze changes in the direction of the final management of municipal sewage sludge in Poland based on the analysis of strategic documents, regulations, literature, and available statistical data. The aim of the analysis was to search for directions to modify how sewage sludge is managed, given the approach promoted by the circular economy concept. The results prove that investments in wastewater treatment plants according to the EU sewage directive are not applied to the development of infrastructure that would enable the disposal of sewage sludge, which, for many years, has been stored (landfilling) or used directly in agriculture and ground reclamation. The introduction of stricter regulations in the area of sewage sludge usage and better wastewater treatment have increased the level of difficulties concerning sewage sludge management. Poland faces the challenge of defining sewage sludge management directions. The circular economy concept offers an approach that can be the basis for the creation of a new sewage sludge management strategy for Poland. The concept allows the combined goals of sewage sludge disposal and of energy and nutrients recovery to be achieved.
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Campbell, H. W., and T. R. Bridle. "Sludge management by thermal conversion to fuels." Canadian Journal of Civil Engineering 13, no. 5 (1986): 569–74. http://dx.doi.org/10.1139/l86-083.

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The philosophy of sludge management in the sewage treatment industry must respond to changes in processing costs and environmental requirements. As overall costs increase, the efficiency of sludge management must be increased either by ugrading the existing scheme or introducing new technology. Both of these approaches are discussed briefly in the paper and it is pointed out that low-temperature conversion of sludge to fuel appears to have considerable potential as a viable new technology.Experimental work carried out at Environment Canada's Wastewater Technology Centre used batch and continuous reactors to evaluate this technology at bench scale. Tests on a number of mixed raw sludges (primary + waste activated) resulted in the following yields: oil, 22–25%, char, 50–60%, noncondensable gas, 10–12%, and reaction water, 5–12%.The impact of a number of sludge treatment alternatives, including the conversion of sludge to oil, are discussed with respect to energy efficiency, flexibility, and public acceptance. The future plans of Environment Canada for the development and demonstration of sludge-to-oil technology are also discussed. Key words: sewage sludge, thermal conversion, energy recovery, sludge management, oil, fuel, char.
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Tsybina, Anna, Christoph Wünsch, Irina Glushankova, and Anna Arduanova. "Development and Substantiation of Approaches to the Management of Sewage Sludge of Different Storage Periods." Energies 16, no. 15 (2023): 5698. http://dx.doi.org/10.3390/en16155698.

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A widespread method of sewage sludge disposal is still simple storage in sludge lagoons. Subsequent thermal utilization is hardly possible because sludge properties change over time and energy content is reduced. Use as a soil conditioner in agriculture or landscaping is usually not possible due to high heavy metal contents. This paper describes a method in which a 10-year-old accumulated sewage sludge can be utilized as technical soil by mixing it with pyrolized fresh sewage sludge. For this purpose, physicochemical and toxicological characteristics of sewage sludge of different storage periods were identified, processes of thermal destruction of sewage sludge analyzed, toxicological characteristics of solid products of thermal sludge treatment determined, and the possibility of using the sewage sludge–pyrolysate mixture as technical soil was assessed. Results show that the gross calorific value of fresh and one-year stored sewage sludge is with approx. 15,000 kJ/kg dry basis sufficient to produce pyrolysate autothermally. It is also shown that when the pyrolysis residue is mixed with fresh or 1-year old sewage sludge, heavy metals can be immobilized and thus the leaching of heavy metals significantly reduced by up to 75%. The method described can thus be a possible option for recycling accumulated sewage sludge.
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Kowalski, Zygmunt, Agnieszka Makara, Joanna Kulczycka, et al. "Conversion of Sewage Sludge into Biofuels via Different Pathways and Their Use in Agriculture: A Comprehensive Review." Energies 17, no. 6 (2024): 1383. http://dx.doi.org/10.3390/en17061383.

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The valorisation of sewage sludge for sustainable agricultural use and biofuel production proposes an effective and beneficial management of sewage sludge in a closed-loop cycle. The management of sewage sludge biowaste is a rising problem due to increasing waste storage expenses. In this sense, the use of circular economy principles in sewage sludge management creates opportunities to develop new technologies for processing. The biorefinery model allows the application of wasteless technologies via sewage sludge valorisation in terms of agricultural use and biofuel production, especially with the hydrothermal carbonisation method. Applying hydrothermal carbonisation in the treatment of biosolid sewage sludge has numerous benefits due to processing highly hydrated organic waste into carbon hydro char, a high-quality solid biofuel. The direct use of sewage sludge in the soil does not allow for full use of its functional properties. However, the hydrothermal carbonisation of sewage sludge results in biocarbon pellets, making it a viable approach. This work also discusses the barriers (legal, chemical, biological, and technical) and possibilities related to sewage sludge biorefining processes.
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Dokulilová, Tereza, Tomáš Vítěz, Jan Chovanec, Robert Rouš, Monika Vítězová, and Ivan Kushkevych. "Primary and Activated Sludge Biogas Production: Effect of Temperature." Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis 66, no. 1 (2018): 23–28. http://dx.doi.org/10.11118/actaun201866010023.

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Sewage sludge management is a problem of growing importance. Anaerobic sewage sludge stabilization is commonly used technology, where organic matter contained in primary and activated sewage sludge is converted into biogas, so both, pollution control and energy recovery can be achieved. The paper deals with the effect of process temperature (36 °C, 42 °C and 50 °C) on biogas production and quality during anaerobic stabilization of primary and activated sewage sludge generated during purifying process in low‑loaded activated sludge process. Primary and activated sewage sludge samples were taken at the wastewater treatment plant Brno, Czech Republic. The characteristics of sludges (dry matter and organic dry matter content, pH, conductivity, redox potential) were dermined. Biogas production and quality was measured using 3 anaerobic systems, each of 8 batch anaerobic fermenters, at the 3 different temperature conditions 36 °C, 42 °C and 50 °C. Hydraulic retention time was 20 days. Hypothesis, which predicts that the fermentation of primary and activated sludge provides dissimilar methane quantity and quality under different temperature conditions (36 °C, 42 °C and 50 °C), was partially confirmed. Temperature 42 °C significantly increased biogas production from primary sewage sludge (by 60 % in comparison with production at 36 °C). For activated sewage sludge samples no significant influence of temperature on the biogas production was observed.
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Dissertations / Theses on the topic "Sewage sludge management"

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Chan, Lap-man. "Sludge management : oversea experience and application in Hong Kong /." [Hong Kong : University of Hong Kong], 1994. http://sunzi.lib.hku.hk/hkuto/record.jsp?B13813560.

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Mak, Keung-kan, and 麥強根. "Sludge management in Hong Kong." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 1994. http://hub.hku.hk/bib/B31252953.

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Yang, Wing-ning. "Management of dewatered sludge in Hong Kong /." View the Table of Contents & Abstract, 2006. http://sunzi.lib.hku.hk/hkuto/record/B37118833.

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Fang, Min. "Co-composing of sewage sludge with coal fly ash." HKBU Institutional Repository, 1998. http://repository.hkbu.edu.hk/etd_ra/181.

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Yang, Wing-ning, and 楊永寧. "Management of dewatered sludge in Hong Kong." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2006. http://hub.hku.hk/bib/B45013652.

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Aragon, Briceño Christian Israel. "Hydrothermal processes as an alternative to conventional sewage sludge management." Thesis, University of Leeds, 2018. http://etheses.whiterose.ac.uk/22908/.

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Sewage sludge management is one of the biggest concerns to the wastewater industry due to the increasing volumes produced and new stringent environmental regulations. Hydrothermal Treatments (HT) are a good option for converting wet biomass such as sewage sludge into high value products. However, HT are still not well developed when compared with other waste processing treatments. One of the most promising areas for developing hydrothermal processing applications is in sewage sludge treatment facilities. Sewage sludge has been identified as a potential feedstock for hydrothermal processing that could make use of existing facilities currently in place in wastewater treatment works (WWTWs). In order to look for options aimed at reducing the costs of the WWT process and digestate management by delivering a sustainable and novel approach, the aim of this project is to assess alternatives to enhance the way sewage sludge is handled in WWTWs, by focusing on the use of hydrothermal processes and the potential of recovering energy and nutrients. The potential of integrating HT Processes with AD for sewage sludge treatment was evaluated. Hydrochar yields ranged from 38 to 68% at 160°C and from 29 and 40% at 250°C for all thermal treated sewage sludge samples. The soluble fraction of organic carbon increased in primary sludge digestate (525%), secondary sludge digestate (808%) and sewage digestate sludge (675%) after thermal treatments compared with the untreated digestates. Figures from Biomethane Potential (BMP) tests showed that hydrothermal treatment enhanced methane production in all non-AD and AD sludge samples processed. Mass and energy balances were carried out from six proposed process configurations from different sewage sludge feedstocks and their digestates (primary, secondary and 1:1 Mix) in order to evaluate the waste generation, nutrients potential fate, net energy production and potential profit. The results showed the HTC at higher temperatures (250°C) seems to have more economic and environmental benefits. Scenarios that involved primary and mix sludge seemed to be the most suitable options in terms of the organic matter removal, energy harnessing and economic feasibility.
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Bauer, Torben. "Can new treatment combinations make sewage sludge management more sustainable?" Licentiate thesis, Luleå tekniska universitet, Geovetenskap och miljöteknik, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-84162.

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Treated sewage sludge is often reused as a fertilizer but several European countries are phasing out this option due to concerns about harmful substances in the sludge. Valuables in the sludge should still be recycled so the removal of the pollutants is necessary. The technology in sewage sludge treatment remained nearly unchanged in the past century. Adapting traditional treatments and combining them with upcoming ones can be a way to separate substances in sewage sludge. This work discusses examples of how treatment methods can be combined and which potential these treatment combinations may have. New tools for system analyses need to be developed to allow the integration and adaption of treatments into existing infrastructure.
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Chan, Lap-man, and 陳立民. "Sludge management: oversea experience and application in Hong Kong." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 1994. http://hub.hku.hk/bib/B31252783.

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Day, A. D., M. A. Solomon, M. J. Ottman, and B. B. Taylor. "High Rates of Sewage Sludge in Barley Production." College of Agriculture, University of Arizona (Tucson, AZ), 1989. http://hdl.handle.net/10150/201052.

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A greenhouse experiment was conducted at the University of Arizona, Tucson, Arizona, to study the effects of liquid sewage sludge loading rates on the vegetative growth, yield, and quality of barley grain and straw. Vegetative growth, grain yields, and straw yields were similar whether barley was grown with inorganic N or equivalent amounts of plant-available N from sewage sludge. Sewage sludge loading rates higher than three times the recommended plant-available N rate decreased barley stands in the seedling stage. The loss of stand was compensated for by higher tillering later in the season. High sludge loading rates tended to delay maturity, increase tillering and increase straw yield; however, they did not affect grain yield. Concentrations of cadmium (Cd), copper, (Cu), lead (Pb), nickel (Ni), and zinc (Zn) in barley grain and straw and the amounts of heavy metals recovered in the soil following each harvest were similar to the control for all sewage sludge treatments.
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Copp, John B. "COD balances in biological nutrient (nitrogen and phosphorus) removal activated sludge systems /." *McMaster only, 1998.

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Books on the topic "Sewage sludge management"

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Stoll, Uwe. Municipal sewage sludge management. Environmental Systems Information Center, Asian Institute of Technology, 1996.

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Lue-Hing, Cecil. Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007.

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Regional Conference on Sewage Sludge Technology and Management (1st 2003 Kuwait, Kuwait). Sewage sludge technology and management. Edited by Al-Awadi Nader 1950-, Al-Muzaini S, and Moghissi A. Alan. Cognizant Communication Corp., 2007.

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Chartered Institution of Water and Environmental Management. Sewage sludge: Introducing treatment and management. Chartered Institution of Water and Environmental Management, 1995.

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Rajput, Vishnu D., Ajar Nath Yadav, Hanuman Singh Jatav, Satish Kumar Singh, and Tatiana Minkina, eds. Sustainable Management and Utilization of Sewage Sludge. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-85226-9.

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Awasthi, Mukesh Kumar, Zengqiang Zhang, and Ashok Pandey. Sustainable Treatment and Management of Sewage Sludge. CRC Press, 2023. http://dx.doi.org/10.1201/9781003354765.

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Vesilind, P. Aarne. Sludge management & disposal for the practicing engineer. Lewis Publishers, 1986.

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Tyagi, R. D. Sustainable sludge management: Production of value added products. American Society of Civil Engineers, 2009.

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1952-, Tyagi R. D., Environmental Council of the States (U.S.). Sludge Management Task Committee of the Environmental Council., and Environmental and Water Resources Institute (U.S.), eds. Sustainable sludge management: Production of value added products. American Society of Civil Engineers, 2009.

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International Solid Waste Association. Working Group on Sewage & Waterworks Sludge. Sludge treatment and disposal: Management approaches and experiences. European Environment Agency, 1998.

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Book chapters on the topic "Sewage sludge management"

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Bertucci, James J., and Salvador J. Sedita. "Microbiology of Sludge." In Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007-4.

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Haug, Roger T., Richard Kuchenrither, Joseph F. Malina, et al. "Sludge Processing Technology." In Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007-6.

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Bradley, James W., Shunsoku Kyosai, Kazuaki Sato, and Peter Matthews. "Worldwide Sludge Management Practices." In Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007-13.

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Bastian, Robert, Robert M. Southworth, Joseph B. Farrell, et al. "Regulatory Issues." In Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007-2.

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Hunt, Patricia. "Public Policy: The Problem of Public Relations and Acceptance." In Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007-12.

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Gschwind, John, Donald W. Harper, Nabih P. Kelada, et al. "Chemical Constituents Present in Municipal Sewage Sludge." In Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007-3.

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Baturay, Allen, Cecil Lue-Hing, Bernard Sawyer, David Zenz, and Robert Dominak. "Incineration of Municipal Sewage Sludge." In Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007-8.

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Calvano, Joseph, Prakasam Tata, Bernard Sawyer, and Thomas E. Wilson. "Sources and Control of Odor Emissions from Sludge Processing and Treatment." In Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007-5.

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Zenz, David. "Introduction." In Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007-1.

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Griffin, Robert A., Cecil Lue-Hing, David Zenz, and Ronald B. Sieger. "Municipal Sewage Sludge Management at Dedicated Land Disposal Sites and Landfills." In Municipal Sewage Sludge Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003579007-7.

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Conference papers on the topic "Sewage sludge management"

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Panepinto, D., and G. Genon. "Wastewater sewage sludge: the thermal treatment solution." In WASTE MANAGEMENT 2014. WIT Press, 2014. http://dx.doi.org/10.2495/wm140171.

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Turlej, Tymoteusz. "MANAGEMENT OF COMMUNAL SEWAGE SLUDGE IN POLAND." In 17th International Multidisciplinary Scientific GeoConference SGEM2017. Stef92 Technology, 2017. http://dx.doi.org/10.5593/sgem2017/51/s20.081.

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Mazurkiewicz, Jakub. "ALTERNATIVE SEWAGE SLUDGE AND BIOWASTE CO-MANAGEMENT." In 19th SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings. STEF92 Technology, 2019. http://dx.doi.org/10.5593/sgem2019v/4.2/s11.044.

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Manyuchi, M. M., and N. Sukdeo. "Recovery of Phosphate from Municipal Sewage Sludge." In 3rd Indian International Conference on Industrial Engineering and Operations Management. IEOM Society International, 2023. http://dx.doi.org/10.46254/in03.20230098.

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Tetičkovič, Tim. "Sewage Sludge Drying and Heating Valorization." In TBMCE, International Conference on Technologies & Business Models for Circular Economy. University of Maribor Press, 2025. https://doi.org/10.18690/um.fkkt.1.2025.12.

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This study explores a sustainable method for converting sewage sludge with 80% water content into reusable biochar through drying and pyrolysis. The drying phase reduces water content to 12-15% using energy from pyrolysis-produced biochar, minimizing external energy requirements. Pyrolysis decomposes organic materials, producing biochar, gases, and oils, which are burned for energy recovery. The biochar can be reused up to eight times, enhancing resource efficiency and sustainability. Heat generated during both drying and pyrolysis is recycled within the system, further improving energy efficiency. The process demonstrates an innovative, closed-loop approach to waste management, minimizing waste and maximizing energy recovery, with significant potential for industrial applications.
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Déléry, L., G. Gay, S. Denys, et al. "Health risk assessment for sewage sludge applied to land in France." In WASTE MANAGEMENT 2006. WIT Press, 2006. http://dx.doi.org/10.2495/wm060551.

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Alonso-Vicario, A., A. M. Macarulla-Arenaza, I. Oribe-García, and A. Macarulla-Arenaza. "A comparative study for energetic valorisation of partially digested sewage sludge." In WASTE MANAGEMENT 2012. WIT Press, 2012. http://dx.doi.org/10.2495/wm120101.

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Yading Zhao, Zhiyu Wang, Xueying Li, and Fuhui Xiong. "Research of sintered clay body mixed with sewage sludge." In 2011 International Conference on Business Management and Electronic Information (BMEI). IEEE, 2011. http://dx.doi.org/10.1109/icbmei.2011.5914242.

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Mortula, Md M., and S. Atabay. "Effect of alum and lime on phosphorus leachability from sewage sludge." In WATER RESOURCES MANAGEMENT 2011. WIT Press, 2011. http://dx.doi.org/10.2495/wrm110361.

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MOŠKO, JAROSLAV, MICHAEL POHOŘELÝ, SIARHEI SKOBLIA, et al. "BATCH REACTOR PYROLYSIS OF STABILIZED SEWAGE SLUDGE: PRODUCT ANALYSIS AND SULPHUR BALANCE." In WASTE MANAGEMENT 2018. WIT Press, 2018. http://dx.doi.org/10.2495/wm180331.

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Reports on the topic "Sewage sludge management"

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Ozano, Kim, Andrew Roby, and Jacob Tompkins. Learning Journey on Water Security: UK Water Offer. Institute of Development Studies (IDS), 2022. http://dx.doi.org/10.19088/k4d.2022.026.

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The overarching goals for the UK in relation to global water security are to; tackle and reverse growing water insecurity and its consequences caused by depletion and degradation of natural water sources; and address poor water management and increasing demand. To do this, the UK has a well-developed water ‘offer’ that together can help reach the goal of global water security. This note details some of that water offer: UK water leadership: The UK developed the concept of modern sanitation and water supply, with an early example being the Victorian Bazalgette London sewer; Ownership and regulation: The UK has four models of ownership: government department in Northern Ireland, GoCo in Scotland, Mutual in Wales, and private companies in England. But the common thread is strong and clear, regulation to deliver the right outcomes for society; Competition and markets: The UK set up the world’s first water retail markets for business customers, delivering savings and environmental benefits. Similar market mechanisms are being developed for sewage sludge, which will help drive circular economy solutions; Innovation: The UK has a huge number of water tech start-ups and most water companies have labs and pilot schemes to support these fledgling companies. At the same time, the English regulator, Ofwat, has established a huge innovation fund, which along with the Scottish Hydro Nation initiative has made the UK the best place in the world for water innovation and tech.
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