Search results for "Waste management"

showing 10 items of 1526 documents

Electrochemical Treatment of Wastewater by ElectroFenton, Photo-ElectroFenton, Pressurized- ElectroFenton and Pressurized Photo ElectroFenton: A Firs…

2021

In the last few years increasing attention has been devoted to the utilization of electroFenton (EF) and EF based technologies for the treatment of wastewater polluted by recalcitrant organics. It has been shown that the performances of EF can be strongly improved using ultraviolet (UV) irradiation, e.g., by the photo-electroFenton (PEF) method, or pressurized air or oxygen, e.g., by the pressurized-electroFenton (PrEF) one. Although several studies were carried out on the degradation of many organic pollutants using EF, PEF or PrEF, a systematic comparison between PEF and PrEF was never reported as well as the possibility to couple the irradiation with pressurized air. In this study the pe…

Waste managementWastewaterChemistryElectrochemistrySettore ING-IND/27 - Chimica Industriale E TecnologicaElectrochemistryCatalysiselectroFenton photo-electroFenton pressurized- electroFenton pressurized photo-electroFenton wastewater treatment
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Photo-Electrochemical Technologies for Removing Organic Compounds in Wastewater

2018

Abstract In recent years, electrochemical technologies for the prevention and remediation of environmental pollution have been strongly developed. A review of photoelelectrocatalysis (PEC) for the treatment of wastewater is presented in this chapter. Different types of photo-anodes and cathodes have been developed and studied to increase the efficiency of PEC for the removal of organic compounds. An interesting parameter that was investigated in the last work is the generation of an active species by the utilization of proper cathodes. Moreover, this chapter deals with the keys factors affecting the PEC, including electrolyte oxidation.

Waste managementWastewaterEnvironmental remediationEnvironmental scienceEnvironmental pollution02 engineering and technologyElectrolyte010501 environmental sciences021001 nanoscience & nanotechnology0210 nano-technologyElectrochemistry01 natural sciences0105 earth and related environmental sciences
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Water Resource Recovery Facilities (WRRFs): The Case Study of Palermo University (Italy)

2021

The wastewater sector paradigm is shifting from wastewater treatment to resource recovery. In addition, concerns regarding sustainability during the operation have increased. In this sense, there is a need to break barriers (i.e., social, economic, technological, legal, etc.) for moving forward towards water resource recovery facilities and demonstration case studies can be very effective and insightful. This paper presents a new water resource recovery case study which is part of the Horizon 2020 EU Project “Achieving wider uptake of water-smart solutions—Wider Uptake”. The final aim is to demonstrate the importance of a resource recovery system based on the circular economy concept. The r…

Waste managementWater supply for domestic and industrial purposesCircular economyCircular economyGeography Planning and DevelopmentHydraulic engineeringWastewater treatmentAquatic ScienceBiochemistryVolatile fatty acidsWastewaterWater smart solutionsSustainabilityEnvironmental scienceSewage treatmentBatch testcircular economy; wastewater treatment; water resource; water smart solutionsTC1-978TD201-500Water resourceWater Science and TechnologyResource recoveryWater; Volume 13; Issue 23; Pages: 3413
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Sustainable Energy Supply Based on Sunflower Seed Husk for Oil mills

2019

The use of biomass, including sunflower husk, for in-situ energy generation has undergone a development in Ukraine last decades. Within this work, four combined heat and power technologies based on oil utilization, husk combustion, gasification, and methanization have been investigated. Their electricity and heat potential has been determined. Criteria for techno-economical assessment of CHP technologies have been suggested. Husk biogas and gasification technologies are not mature. CHP plants based on husk combustion are competitive. Steam turbine generators with a nominal electric capacity higher 1.5 MW may be profitable too.

Waste managementbiomassbusiness.industryBiomassprocessing plantenergy supplyCombustionHuskrenewable energyRenewable energyElectricity generationBiogasefficiencyEnvironmental scienceSunflower seedEnergy supplyconversionbusiness
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A Tool for Energy Management and Cost Assessment of Pumps in Waste Water Treatment Plants

2017

Waste Water Treatment Plants (WWTPs) are generally considered energy intensive. Substantial energy saving potentials have been identified by several authors. Pumps consume around 12% of the overall WWTP energy consumption. In this paper we propose a methodology that uses the sensors commonly installed in WWTPs, such as volume and energy sensors, to perform energy benchmarking on pumps. The relationship between energy efficiency and flow rate is used to detect specific problems, and potential solutions are proposed, taking into consideration economical and environmental criteria (cost of externalities in energy production). The methodology integrates energy benchmarking, data-mining, and eco…

Waste managementbusiness.industryEnergy management020209 energy02 engineering and technologyBenchmarkingEnergy consumptionWaste treatment020401 chemical engineering0202 electrical engineering electronic engineering information engineeringProduction (economics)Environmental scienceEnvironmental impact assessment0204 chemical engineeringProcess engineeringbusinessEnergy (signal processing)Efficient energy use
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NO formation tendency characterization for solid fuels in fluidized beds

2013

Abstract Usually the standard fuel analysis is not enough to allow for accurate NO emission predictions in large scale fluidized bed combustion. This paper presents NO formation tendency characterization results from novel laboratory measurements in a small-scale fluidized bed combustor. With the special two-stage oxidation method it is possible to eliminate the observed problems of unstable test conditions during rapid pyrolysis of high-volatile fuels in batch combustion. Experimental results of the conversion of fuel nitrogen to NO are presented for wide range of fuels, ranging from coal-type fuels to peat, biomasses and wastes. A NO formation tendency database is formed based on the resu…

Waste managementbusiness.industryGeneral Chemical EngineeringOrganic ChemistryEnergy Engineering and Power TechnologyCombustionSolid fuelFuel mass fractionnitrogen oxidesFuel Technologyfluidized bed combustionFluidized bedEnvironmental scienceCoalcharacterizationFluidized bed combustionCharbusinessta116Chemical looping combustionsolid fuelfuel nitrogenFuel
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Heat Recovery Systems for Agricultural Vehicles: Utilization Ways and Their Efficiency

2018

The focus of today&rsquo

Waste managementbusiness.industryPlant ScienceDiesel enginelcsh:S1-972Waste heat recovery unitInternal combustion engineefficiencyAir conditioningHeat recovery ventilationWaste heatinternal combustion engineheat recoveryFuel efficiencyEnvironmental sciencemedia_common.cataloged_instancelcsh:Agriculture (General)European unionbusinessAgronomy and Crop ScienceagricultureFood Sciencemedia_commonAgriculture
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Torrefied versus conventional pellet production – A comparative study on energy and emission balance based on pilot-plant data and EU sustainability …

2015

Abstract Torrefaction is an emerging technology which enables greater co-firing rates of biomass with coal. To date however there has been a lack of real production data from pilot-scale torrefaction plants. Without such data any environmental benefits of torrefied pellet production are difficult to quantify. In this study data on consumable inputs from a semi-industrial torrefaction plant and the physical properties of produced pellets are used to analyse energy input and air emissions of torrefied pellet production and product transport. EU sustainability criteria are used to compare CO2-equivalent emissions from torrefied and conventional pellet production starting from harvesting of log…

Waste managementbusiness.industrywood pelletsMechanical EngineeringFossil fuelemissionsPelletsBuilding and ConstructionManagement Monitoring Policy and LawREDTorrefactionPelletizingenvironmental impactRenewable energytorrefactionGeneral EnergyBiofuelEnvironmental scienceCoalco-firingbusinessEnergy sourceta215ta218Applied Energy
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Nuclear Power, No Thanks?

2012

The greatest misunderstanding related to nuclear energy, which is continuously exploited by its opponents, is the nature of radioactivity. Pierre and Marie Curie carried in the pockets of their laboratory coats test tubes full of highly radioactive substances, unaware that gamma radiation could be harmful at high doses. In contrast, antinuclear propaganda has been so effective that most people are convinced that any radioactive “leakage” is deadly or that radioactive waste has to be buried at a depth of kilometers to avoid harmful effects—in fact, a few meters of soil is enough to absorb even the most intense gamma radiation—or that cancer risk grows exponentially due to nuclear power plant…

Waste managementlawbusiness.industryNuclear power plantHigh dosesEnvironmental scienceRadioactive wasteNuclear powerNuclear plantbusinessCancer risklaw.inventionMarie curie
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Domestic sewage treatment plant or ecological septic tank

2017

Waste managementmedia_common.quotation_subjectCost analysisIndustrial chemistryEnvironmental scienceSewage treatmentSeptic tankmedia_commonCzasopismo Techniczne
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