Novel stair-shaped ground absorber for performance enhancement of solar chimney power plant

Novel stair-shaped ground absorber for performance enhancement of solar chimney power plant

[Display omitted] •The use of a stair-shaped ground absorber improves solar chimney plant performance.•The enhancement of the generated power depends on number of steps and stair height.•The irreversibility generation augments with more steps and higher stair height.•For the Manzaranes plant, the st...

Full description

Saved in:
Bibliographic Details
Published in:Applied thermal engineering Vol. 227; p. 120466
Main Authors: Biswas, Nirmalendu, Kumar Mandal, Dipak, Manna, Nirmal K., Cemal Benim, Ali
Format: Journal Article
Language:English
Published: Elsevier Ltd 05-06-2023
Subjects:
Exergy
Renewable energy
Solar power
Staircase absorber surface
Sustainability
Thermo-hydraulic Performance analysis
Solar power
Exergy
Renewable energy
Sustainability
Thermo-hydraulic Performance analysis
Staircase absorber surface
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •The use of a stair-shaped ground absorber improves solar chimney plant performance.•The enhancement of the generated power depends on number of steps and stair height.•The irreversibility generation augments with more steps and higher stair height.•For the Manzaranes plant, the stair-shaped absorber improves up to 80% power generation.•Analyses of thermo-hydraulic flow parameters and exergy provide in-depth insights. The present study investigates the use of a stair-shaped ground surface of a chimney-based solar thermal power plant (SCPP). The stair-shaped absorber is implemented to augment the efficacy of SCPP. The current investigation is conducted with a finite volume method-based solver, considering turbulent flow and solar irradiation models. Thermo-hydraulic performance, power generation, and irreversibility production of the plant are analyzed for different dimensions of the stair-shaped absorber. The present computing model is validated against the Manzaranes pilot plant with good agreement. The analysis indicates that the proposed stair-shaped absorber can improve power generation by up to ∼ 80% (compared to a flat ground absorber surface). The power generation of a classical plant can be enhanced from 51 to 92 kW. The sloped ground absorber (a limiting case with infinite steps) generates 82 kW power, which is ∼ 19% less than the stepped ground absorber surface. The role of geometric dimensions of the stair-shaped absorber is systematically examined. It reveals an increasing central height or number of steps of the absorber improves overall plant efficiency. However, the net exergy efficiency does not increase significantly with stair height, despite the rise in chimney exergy efficiency. Mathematical correlations for predicting power generation and different efficiencies are also developed. Thus, this work provides comprehensive insights into the potential of a stair-shaped absorber, and the findings suggest that the proposed ground absorber of a stair shape could be an alternative solution for improving power generation in classical SCPPs.
ISSN:1359-4311
DOI:10.1016/j.applthermaleng.2023.120466