Effect of Metallic and Non-Metallic Additives on the Synthesis of Fullerenes in Thermal Plasma

Keszler, Ágnes; Kováts, Éva; Bódis, Eszter; Károly, Zoltán; Szépvölgyi, János

doi:10.3390/condmat7030044

Cited by 4 publications

(2 citation statements)

References 47 publications

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“…One of the most significant advantages of ICTP is its ability to generate a clean, high-temperature environment free from contamination by electrode materials. Capitalizing on these benefits, ICTPs have found diverse applications, including waste disposal [28], thermal barrier coating production [29][30][31], plasma spray-physical vapor deposition technique [32], diamond film deposition [33,34], fullerene synthesis [35,36], fine powder spheroidization [37][38][39], nanopowder synthesis [40][41][42][43], nanotube production [44,45], catalyst synthesis [46], and astrophysical research [47]. Despite the successful utilization of ICTP torches in numerous material processes, certain limitations have also emerged.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Essential Features and Optimal Operational Parameters of an RF-ICP Torch for Waste Treatment Applications

Aldeeb,

Abu Darda,

Damideh

et al. 2024

Recycling

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Recently, plasma-based pyrolysis has gained increasing prominence as a technology in response to the growing challenges in waste disposal and the recognition of opportunities to generate valuable by-products. The efficiency of the pyrolysis process is intricately tied to the characteristics of the plasma involved, particularly the effective electron temperature (Teff) and plasma density (ne). This study aimed to conduct a comprehensive examination of the essential features and optimal operational parameters of a developed RF-ICP torch specifically designed for small-scale municipal solid waste (MSW) pyrolysis (mixture of paper and polypropylene) with the goal of controlling both the torch and the overall process. Using optical emission spectroscopy (OES), we measured plasma parameters, specifically (Teff) and (ne), while varying argon gas flow rates and RF powers. The (Teff) and (ne)were determined using the Boltzmann plot and Stark broadening, respectively. The RF torch was found to generate (ne) up to approximately 2.8×1020 cm−3 and (Teff) up to around 8200 K, with both parameters being controlled by the discharge power and gas flow rate. Additionally, a power-losing mechanism, namely the anomalous skin effect, was detected during the study, which is uncommon in atmospheric plasma discharge.

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Section: Introductionmentioning

confidence: 99%

Analysis of Essential Features and Optimal Operational Parameters of an RF-ICP Torch for Waste Treatment Applications

Aldeeb,

Abu Darda,

Damideh

et al. 2024

Recycling

View full text Add to dashboard Cite

show abstract

“…One of the most significant advantages of ICTP is its ability to generate a clean, high-temperature environment free from contamination by electrode materials. Capitalizing on these benefits, ICTPs have found diverse applications, including waste disposal [24], thermal barrier coating production [25][26][27], diamond film deposition [28], fullerene synthesis [29,30], fine powder spheroidization [31][32][33], nanopowder synthesis [34][35][36][37], nanotube production [38,39], catalyst synthesis [40], and astrophysical research 3 [41]. Despite the successful utilization of ICTP torches in numerous material processes, certain limitations have also emerged.…”

Section: Introductionmentioning

confidence: 99%

Efficient Waste Management via Tuning Plasma Properties in Radio Frequency Inductively Coupled Plasma

A. Aldeeb,

Abu Darda,

Damideh

et al. 2023

Preprint

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In the last ten years, plasma waste treatment has gained increasing prominence as a technology in response to growing challenges in waste disposal and the recognition of opportunities for generating valuable by-products. The efficiency and outcomes of this process are intricately linked to the characteristics of the plasma involved, such as plasma enthalpy and heat flux. We employed an experimental radio frequency inductively coupled plasma (RF-ICP) torch operating at atmospheric pressure to generate plasma. Utilizing optical emission spectroscopy (OES), we measured plasma parameters, specifically the effective electron temperature (Teff) and plasma density (ne), while varying argon gas flow rates and RF powers. Our investigations revealed that both flow rate and RF power exert significant control over plasma parameters, and we observed an unusual phenomenon within this range of discharge pressures. Consequently, both the plasma's enthalpy and the heat flux it generates are influenced by variations in both flow rate and RF power.

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Carbon Nanotubes Particles: Processing, Mechanical Properties and Application

Maâti,

Amadine,

Sair

et al. 2023

Smart Nanomaterials Technology

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Effect of Metallic and Non-Metallic Additives on the Synthesis of Fullerenes in Thermal Plasma

Cited by 4 publications

References 47 publications

Analysis of Essential Features and Optimal Operational Parameters of an RF-ICP Torch for Waste Treatment Applications

Analysis of Essential Features and Optimal Operational Parameters of an RF-ICP Torch for Waste Treatment Applications

Efficient Waste Management via Tuning Plasma Properties in Radio Frequency Inductively Coupled Plasma

Carbon Nanotubes Particles: Processing, Mechanical Properties and Application

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