Spray scrubber for nanoparticle removal from incineration fumes from the incineration of waste containing nanomaterials: Theoretical and experimental investigations

Adah, Emmanuel; Joubert, Aurélie; Boudhan, Rachid; Henry, Marc; Durecu, Sylvain; Coq, Laurence Le

doi:10.1080/02786826.2021.1974332

Cited by 7 publications

(2 citation statements)

References 107 publications

(75 reference statements)

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“…Nanomaterials have so many applications in different markets; for that reason they are expected to grow at an average annual rate of 13.1% from 2020 to 2027. 346 However, the implementation of this technique in the EOR area has many concerns. The major technical and economic matter is the field-scale production of the material.…”

Section: Economic Potential Assessment Of a Nano-sagd Methodsmentioning

confidence: 99%

Nanoparticles Technology for Improving Steam-Assisted Gravity Drainage Process Performance: A Review

Prada,

Botett,

Contreras−Mateus

et al. 2024

Ind. Eng. Chem. Res.

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The increase in energy demand and the dynamics of the energy transition have changed the perspectives and opportunities within the oil and gas sector. This revolutionary scenario has resulted in sustainable and consolidated strategies, exemplified by the development of enhanced oil recovery (EOR) methods within the improved oil recovery (IOR) scheme, and specifically for this Review study in the steam-assisted gravity drainage (SAGD) techniques. The selection and impact of the EOR methods, as well as the expected recovery, rely on multiple factors, encompassing economic, environmental, and technological considerations. The above has led to the simultaneous appearance of uncertainties and difficulties that are continuously challenging the ranking of the oil sector in the global energy market. Against this background, nanotechnology has been established as a feasible strategy to be integrated into multiple stages of the oil supply chain. This Review study has focused on highlighting the synergistic trends of nanotechnology, steam, and oil recovery by conducting bibliometric analysis, where a tendency of the number of publications has increased in the last three years, as evidence of the application of nanotechnology in the oil industry. We have also carried out comprehensive discussions on the most widely implemented conventional thermal oil recovery methods with the dual purpose of explaining their methodologies and, at the same time, highlighting their inherent limitations and the imperative requirements to optimize them. In this direction, we have presented an in-depth exploration of the physicochemical mechanisms of action of nanoparticles to underscore the prospects for their applications in the EOR technologies. Finally, we contextualized the economic and technical feasibility of incorporating nanoparticles into industry, alongside advancements in simulation studies, presented as robust and cost-effective research alternatives, offering a more well-founded perspective on the scalability of nanoparticle technology.

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Section: Economic Potential Assessment Of a Nano-sagd Methodsmentioning

confidence: 99%

Nanoparticles Technology for Improving Steam-Assisted Gravity Drainage Process Performance: A Review

Prada,

Botett,

Contreras−Mateus

et al. 2024

Ind. Eng. Chem. Res.

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“…Using the waste heat of the flue gas to preheat the air entering the unit can increase the temperature of the cold primary and secondary air entering the air preheater, which is beneficial to the stable combustion in the boiler and improves the efficiency of the boiler [27]. Reference [28] conducted a numerical simulation on the synergistic dust removal performance of the desulfurization tower. The results showed that when the flue gas temperature at the inlet of the desulfurization tower decreased to 85°C, the removal efficiency of the particles in the flue gas of the desulfurization tower changed very little.…”

Section: Introductionmentioning

confidence: 99%

An Efficient Method for Heat Recovery Process and燭emperature燨ptimization

Naser¹,

Dauwed²,

Alkhayyat³

et al. 2023

Computers, Materials &Amp; Continua

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Flue gas heat loss accounts for a significant component of the overall heat loss for coal-fired boilers in power plants. The flue gas absorbs more heat as the exhaust gas temperature rises, which reduces boiler efficiency and raises coal consumption. Additionally, if the exhaust gas temperature is too high, a lot of water must be used to cool the flue gas for the wet flue gas desulfurization system to function well, which has an impact on the power plant's ability to operate profitably. It is consequently vital to take steps to lower exhaust gas temperatures in order to increase boiler efficiency and decrease the amount of coal and water used. Desulfurization performance may be enhanced and water use can be decreased by reasonable flue gas characteristics at the entry. This study analyzed the unit's energy consumption, investment, and coal savings while proposing four coupling strategies for regulating flue gas temperature and waste heat recovery. A graded flue gas conditioning and waste heat recovery plan was presented under the condition of ensuring high desulfurization efficiency, along with the notion of minimizing energy loss owing to energy inflow temperature difference. Numerical results show that the proposed methods improved the system performance and reduced the water consumption and regulated the boiler temperature.

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Optimization of Nanoparticle Collection by a Pilot-Scale Spray Scrubber Operated Under Waste Incineration Conditions: Using Box–Behnken Design

Adah

Joubert

Henry³

et al. 2023

Waste Biomass Valor

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Spray scrubber for nanoparticle removal from incineration fumes from the incineration of waste containing nanomaterials: Theoretical and experimental investigations

Cited by 7 publications

References 107 publications

Nanoparticles Technology for Improving Steam-Assisted Gravity Drainage Process Performance: A Review

Nanoparticles Technology for Improving Steam-Assisted Gravity Drainage Process Performance: A Review

An Efficient Method for Heat Recovery Process and燭emperature燨ptimization

Optimization of Nanoparticle Collection by a Pilot-Scale Spray Scrubber Operated Under Waste Incineration Conditions: Using Box–Behnken Design

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