Mihaela Norisor scite author profile

Abstract. The paper analyzes the "secondary" circuit (for thermodynamic conversion) of a Concentrated Solar Power (CSP) plant with thermodynamic cycle, whose mirrors field supplies a thermal power, averaged over a sunny day, of about 100 MW heat. We study the case of parabolic trough solar collector using silicone oil in the "primary" circuit, which limits the peak temperature below 400°C. The "primary" circuit uses thermal storage, allowing a delay between the power generation in rapport with the solar energy capture. We choose a water-steam cycle, type Hirn. For increasing its efficiency, it has regenerative feed water preheating and steam reheating. We compared, energetic and exergetic, two types of cycles, using a numerical model with iterative structure, developed by the authors. The results showed that the simplified design achieves practically the same thermodynamic performances with the advanced one.

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Improvements in the CO<inf>2</inf> capture process by optimizing the solvent regeneration temperature

Cenușă

Norisor

Darie

et al. 2016

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Mihaela Norisor

Parametric optimization of the thermodynamic cycle design for supercritical steam power plants

Analyzing the heat and exergy transfer in steam generators for Concentrated Solar Plants with Molten Salt in the primary circuit

Energetic and economic analysis of advanced waste heat recovery from reciprocating engines, for residential cogeneration

Energetic and exergetic analysis of Rankine cycles for solar power plants with parabolic trough and thermal storage

Improvements in the CO<inf>2</inf> capture process by optimizing the solvent regeneration temperature

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