Electrical Model for HPS Discharge Based on the Energy-Balance Equation

Fabela, José Luis Tapia; Pacheco-Sotelo, J.O.; Pacheco, Marquidia; Benítez-Read, Jorge Samuel; López-Callejas, Régulo; Zissis, Georges; Bhosle, Sounil

doi:10.1109/tps.2007.896973

Cited by 5 publications

(1 citation statement)

References 12 publications

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“…Since the warm plasma discharge is a complex physical concept, the mathematical equations describing an exact physical behavior would be very difficult to obtain and even more difficult to solve; so an approximate and manageable model of the plasma discharge derived from the well-known Elenbaas-Heller equation, considering constant pressure and others simplifications as was explained elsewhere [17,18], is expressed in Eq. (1); this model is taken up again to demonstrate the effects of the frequency on the discharge stability.…”

Section: High-frequency Operation Effectmentioning

confidence: 99%

Greenhouse Gases Reforming and Hydrogen Upgrading by Using Warm Plasma Technology

Pacheco-Sotelo¹,

Valdivia-Barrientos²,

Pacheco-Pacheco³

2019

Green Technologies to Improve the Environment on Earth

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Global warming is an alarming problem with adverse impact on climate change. Carbon dioxide (CO 2) and methane (CH 4) have been identified as the most significant greenhouse gases (GHG) normally arising from anthropogenic activities; therefore, promising treatment technologies are developing all over the world to resolve this problem. The warm plasma is an emergent process with low specific energy requirement capable to reach high temperature to produce excited species and support subsequent chemical reactions. Consequently, warm plasma reactors can be accomplished with simple structure reactors having high gas flow rates and treatment capacity. Plasma interaction with GHG leads into a molecular dissociation, mainly forming CO and H 2 , also known as syngas, which represents an alternative energy source with innovative applications in microturbines and fuel cells, among other emerging applications. The process here explained assures a significant reduction in CO 2 emission and H 2 yield upgrading. The reforming experimental results by using two warm plasma reactors are connected in series to improve the syngas yield. This alternative represents a great possibility for CO 2 conversion.

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Section: High-frequency Operation Effectmentioning

confidence: 99%

Greenhouse Gases Reforming and Hydrogen Upgrading by Using Warm Plasma Technology

Pacheco-Sotelo¹,

Valdivia-Barrientos²,

Pacheco-Pacheco³

2019

Green Technologies to Improve the Environment on Earth

View full text Add to dashboard Cite

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Flicking light design for stage lighting with HPS lamp

Wei

Zissis

2012

2012 IEEE Industry Applications Society Annual Meeting

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Modeling of Dimmable Fluorescent Lamp Including the Tube Temperature Effects

Lin

Hui

2011

IEEE Trans. Ind. Electron.

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This paper presents an improved semitheoretical fluorescent lamp model by including the effect of the lamp tube temperature on the lamp electrical parameters at different dimming levels. The experimental results have verified that the lamp tube temperature is a linear function of the lamp's input power and has significant influence on the lamp's electrical parameters during the dimming process. The comparison on the simulation and measurements shows that the improved lamp model can predict the lamp electrical characteristics accurately in a wide dimming range under both low-and high-frequency operations.

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Electrical Model for HPS Discharge Based on the Energy-Balance Equation

Cited by 5 publications

References 12 publications

Greenhouse Gases Reforming and Hydrogen Upgrading by Using Warm Plasma Technology

Greenhouse Gases Reforming and Hydrogen Upgrading by Using Warm Plasma Technology

Flicking light design for stage lighting with HPS lamp

Modeling of Dimmable Fluorescent Lamp Including the Tube Temperature Effects

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