Relevant bibliographies by topics / Incineration plant of middle treatment capacity

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Academic literature on the topic 'Incineration plant of middle treatment capacity'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Incineration plant of middle treatment capacity"

1

Mininni, G., C. M. Braguglia, R. Ramadori, and M. C. Tomei. "An innovative sludge management system based on separation of primary and secondary sludge treatment." Water Science and Technology 50, no. 9 (2004): 145–53. http://dx.doi.org/10.2166/wst.2004.0557.

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An innovative sludge management system based on separation of treatment and disposal of primary and secondary sludge is discussed with reference to a sewage treatment plant of 500,000 equivalent person capacity. Secondary sludge, if treated separately from primary sludge, can be recovered in agriculture considering its relatively high content of nitrogen and phosphorus and negligible presence of pathogens and micropollutants. One typical outlet for primary sludge is still incineration which can be optimised by rendering the process auto thermal and significantly reducing the size of the incine
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2

Bailey, W. F., and T. G. Shea. "Expansion of Advanced Wastewater Treatment Facilities at Washington, D.C." Water Science and Technology 20, no. 4-5 (1988): 303–13. http://dx.doi.org/10.2166/wst.1988.0180.

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Advanced wastewater treatment facilities at Washington D.C.'s Blue Plains plant are being expanded and upgraded to provide increased capacity. In order to continue meeting the very stringent discharge limitations, modifications will be made to the secondary and nitrification activated sludge systems, wastewater filters, disinfection system, and plant instrumentation. Major upgrades are planned for sludge processing including construction of centrifuge and filter press dewatering facilities, mechanical composting and fluid bed incineration.
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3

Sakai, S., M. Hiraoka, N. Takeda, and I. Ohhama. "System Design and Full-Scale Plant Study on a Drying-Incineration System for Sewage Sludge." Water Science and Technology 21, no. 10-11 (1989): 1453–66. http://dx.doi.org/10.2166/wst.1989.0342.

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The system design of a drying-incineration process for sewage sludge is discussed using an energy-balance model of the system. In particular, the profitability of this system is considered from the energy and cost points of view. An energy-balance model including drying, incineration, waste heat recovery, and exhaust gas treatment processes was formulated. This showed that autothermic conditions could be established at a lower dewatered cake calorific value, i.e., 350 to 400 kcal/kg wet solids (WS), in the drying-incineration system, in contrast to the higher dewatered cake calorific value of
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4

Farrell, Ann E., Bert Michalczyk, and Anaya Nance. "Evaluating the Impacts of Sludge Incineration Using a Risk Based Approach." Water Science and Technology 22, no. 12 (1990): 75–83. http://dx.doi.org/10.2166/wst.1990.0102.

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The viability of continued sludge incineration at Central Contra Costa Sanitary District wastewater treatment plant is presented as a case study. A risk based approach was utilized to assess the long-term feasibility and cost of continued incineration compared to other available sludge handling methods. Three major tasks were conducted as part of the study: an incinerator capacity evaluation; a risk assessment; and, an evaluation of solids handling technologies. The study focused on toxics most often encountered in sewage incinerator emissions, including arsenic, beryllium, cadmium, chromium,
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5

Liu, Jing Yong, Shui Yu Sun, Rong Xue Zhang, Sheng Zhong, and Min Ting Chen. "Removal of Cu2+ in Aqueous Solutions Using Sludge Incineration Slag as an Adsorbent." Applied Mechanics and Materials 55-57 (May 2011): 308–11. http://dx.doi.org/10.4028/www.scientific.net/amm.55-57.308.

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Sewage sludge incineration slag, the waste generated in sewage sludge incineration, was obtained from a sewage treatment plant in Guangzhou and used as a low-cost sorbent for removing Cu(Ⅱ) from wastewaters. The adsorption effectiveness and their factors of Cu2+ in aqueous solutions were simulated detailed using the adsorbents of the sludge incineration slag. The simulation contents and the factors included the adsorption time, the pH of solution and the dosage of adsorbents and so on. The results showed that at 30 °C, the adsorption equilibrium of Cu2+ can be achieved in 6h and the best pH va
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6

Ito, Tomiya. "Sludge Incineration Process of Kyoto City – The Employment and Heat Balance of the Step Grate Stoker Furnace." Water Science and Technology 23, no. 10-12 (1991): 1763–72. http://dx.doi.org/10.2166/wst.1991.0631.

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Kyoto City, an ancient city of international tourism, has been actively constructing its public sewerage system as one of the most important policies of the city. As of April, 1989, 79.6% of the urbanization promotion area of the city has been sewered. The fully completed sewerage system will be established in 1994, the 1200th anniversary of the founding of the city as the ancient Heian capital of Japan. However, the increase of the sewered ratio effects a steady increase in the influent volume of wastewater. Due to the inland location of the city, sludge produced in the wastewater treatment p
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7

Meunier, N., J. F. Blais, M. Lounès, R. D. Tyagi, and J. L. Sasseville. "Different options for metal recovery after sludge decontamination at the Montreal Urban Community wastewater treatment plant." Water Science and Technology 46, no. 10 (2002): 33–41. http://dx.doi.org/10.2166/wst.2002.0282.

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The MUC (Montreal Urban Community) treatment plant produces approximately 270 tons of dry sludge daily (270 tds/day) during the physico-chemical treatment of wastewater. Recently, this treatment plant endowed a system of drying and granulation of sludge for valorization as an agricultural fertilizer having a capacity of 70 tds/day (25% of the daily sludge production). However, the metal content (mainly Cu and Cd) of the sludge surpasses the norms for biosolids valorization. In order to solve this problem, a demonstration project, from the lab scale to the industrial pilot plant, was carried ou
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8

Zhang, Hai Ying, Guo Liang Yuan, and Guo Xian Ma. "Basic Physicochemical Characteristics of Fly Ash from One Shanghai Municipal Solid Waste Incineration (MSWI) Plant." Advanced Materials Research 531 (June 2012): 362–65. http://dx.doi.org/10.4028/www.scientific.net/amr.531.362.

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Fly ash collected from municipal solid waste (MSW) incinerator have been characterized in terms of chemical constituents, mineralogical components, acid neutralizing capacity and total salt content. It was found that the fly ash is rich in SiO2, Al2O3, CaO, Fe2O3 and MgO, which may act as glass-formers (SiO2 and Al2O3), melting (Fe2O3) and stabilizing agents (Fe2O3) during thermal treatment process. Major mineralogical components of fly ash involve SiO2, CaCl2, Ca3Si2O7, Ca2SiO40.35H2O, Ca9Si6O21H2O, K2Al2Si2O83.8H2O and AlCl34Al(OH)34H2O. Aqueous solution of fly ash is alkaline with pH o
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9

Sinkjær, O., P. Bøgebjerg, H. Gruüttner, P. Harremoës, K. F. Jensen, and M. Winther-Nielsen. "External and internal sources which inhibit the nitrification process in wastewater treatment plants." Water Science and Technology 33, no. 6 (1996): 57–66. http://dx.doi.org/10.2166/wst.1996.0081.

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In connection with the upgrading of the two largest wastewater treatment plants in the Copenhagen area to nutrient removal special attention has been paid to the nitrification process regarding inhibition effects. Inhibitory substances in the wastewater could be identified by simple batch tests, and the long-term effects on the nitrification process were tested in pilot plants or at full-scale. A distinction could be made between effects produced by wastewater from external sources in the catchment area and internally circulated flows in the wastewater treatment plant. Results from programmes
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10

Thabit, Qahtan, Abdallah Nassour, and Michael Nelles. "Potentiality of Waste-to-Energy Sector Coupling in the MENA Region: Jordan as a Case Study." Energies 13, no. 11 (2020): 2786. http://dx.doi.org/10.3390/en13112786.

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Population growth, urbanization, and changes in lifestyle have led to an increase in waste generation quantities. The waste management system in the Middle East and North Africa (MENA) region is still considered an adolescent system, while developed countries have made great progress in this field, including regulation, financing, administration, separation at source, recycling, and converting waste to energy. At the same time, in the MENA region, the best performance of the recycling process is around 7–10% of total waste. Nowadays, many developed countries like Germany are shifting from wast
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