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Faculté des Sciences appliquées
Faculté des Sciences appliquées
MASTER THESIS
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Mechanical design, control and optimization of a hybrid solar microgrid for rural electrification and heat supply in sub-Saharan Africa

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Altés Buch, Queralt ULiège
Promotor(s) : Lemort, Vincent ULiège
Date of defense : 8-Sep-2016/9-Sep-2016 • Permalink : http://hdl.handle.net/2268.2/1688
Details
Title : Mechanical design, control and optimization of a hybrid solar microgrid for rural electrification and heat supply in sub-Saharan Africa
Author : Altés Buch, Queralt ULiège
Date of defense  : 8-Sep-2016/9-Sep-2016
Advisor(s) : Lemort, Vincent ULiège
Committee's member(s) : Dewallef, Pierre ULiège
Dickes, Rémi ULiège
Orosz, Matthew 
Language : English
Keywords : [en] modeling
[en] optimization
[en] microgrid
[en] rural electrification
[en] ORC
[en] scroll expander
[en] heat supply
[en] control
[en] rule based control
[en] Lesotho
Discipline(s) : Engineering, computing & technology > Energy
Target public : Researchers
Professionals of domain
Student
Institution(s) : Université de Liège, Liège, Belgique
Massachusetts Institute of Technology, Boston, United States
Degree: Master en ingénieur civil électromécanicien, à finalité approfondie
Faculty: Master thesis of the Faculté des Sciences appliquées

Abstract

[en] This thesis aims at developing, optimizing and controling a hybrid solar microgrid for rural electrification and heat supply in sub-Saharan Africa. The considered system includes PV, Parabolic Trough Collectors, Organic Rankine Cycle and LPG generator, as well as chemical battery storage and thermal energy storage. The work focuses on multiple aspects of the ongoing development of solar hybrid microgrids for the rural electrification of remote areas in Lesotho. These aspects range from very specific improvements (the mechanical design of a high expansion ratio expander) to the more global evaluation of their impact once included into a complex micro-grid system. Special attention has also been paid to the links between thermal and electrical demands.

The main contributions of this thesis are:
- The mechanical design of a high expansion ratio scroll expander, involving drawing, machining and assembly of the parts.
- The detailed model of an organic Rankine cycle with the purpose of evaluating the improvement brought by the high expansion ratio scroll expander and mapping the ORC performance.
- A building model developed to predict the thermal loads of a health clinic in rural communities of Lesotho. The developed lumped-parameter model can be used for various building typologies and communities. The model is designed to be as generic and simple as possible, and contrasts with the data-intensive models generally proposed in the literature.
- The gathering of monitoring and weather data relative to a health clinic in Lesotho, and their use for the calibration of the building model.
- A microgrid model built by interconnecting all of its subcomponent models. A rule-based control strategy is developed, accounting for interactions between thermal and electrical loads, and dispatching heat and power flows of each component in order to cover the demand while minimizing the fuel consumption.
- A particle-swarm optimization model used to optimize the microgrid under different cost assumptions and control strategies

The above models prove that the system performs better with the developed high expansion ratio expander. The maximum output power of the ORC is increased by 33 %, and the fuel consumption of the microgrid is reduced by 25 %.

For the studied community of Ha Nkau in Lesotho, the determined optimal system infrastructure is composed of PV (65 kW) and batteries (259 kWh) only, and the optimum control strategy achieves a levelized cost of electricity of 0.202 USD/kWh. Fuel consumption is mainly due to the burner, which supplies all the thermal load because no other heating system is selected by the optimization.


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Author

  • Altés Buch, Queralt ULiège Université de Liège > Master ing. civil électro., fin. appr. (ex 2e master)

Promotor(s)

Committee's member(s)

  • Dewallef, Pierre ULiège Université de Liège - ULg > Département d'aérospatiale et mécanique > Systèmes de conversion d'énergie pour un dévelop.durable
    ORBi View his publications on ORBi
  • Dickes, Rémi ULiège Université de Liège - ULg > Département d'aérospatiale et mécanique > Systèmes énergétiques
    ORBi View his publications on ORBi
  • Orosz, Matthew Massachusetts Institute of Technology, 77 Massachusetts Ave, Cambridge, MA 02139, USA
  • Total number of views 79
  • Total number of downloads 841










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