Second law analysis and simulation techniques for the energy optimization of buildings

The research activity described in this thesis is focused mainly on the study of finite-element techniques applied to thermo-fluid dynamic problems of plant components and on the study of dynamic simulation techniques applied to integrated building design in order to enhance the energy performance of the building. The first part of this doctorate thesis is a broad dissertation on second law analysis of thermodynamic processes with the purpose of including the issue of the energy efficiency of buildings within a wider cultural context which is usually not considered by professionals in the energy sector. In particular, the first chapter includes, a rigorous scheme for the deduction of the expressions for molar exergy and molar flow exergy of pure chemical fuels. The study shows that molar exergy and molar flow exergy coincide when the temperature and pressure of the fuel are equal to those of the environment in which the combustion reaction takes place. A simple method to determine the Gibbs free energy for non-standard values of the temperature and pressure of the environment is then clarified. For hydrogen, carbon dioxide, and several hydrocarbons, the dependence of the molar exergy on the temperature and relative humidity of the environment is reported, together with an evaluation of molar exergy and molar flow exergy when the temperature and pressure of the fuel are different from those of the environment. As an application of second law analysis, a comparison of the thermodynamic efficiency of a condensing boiler and of a heat pump is also reported. The second chapter presents a study of borehole heat exchangers, that is, a polyethylene piping network buried in the soil which allows a ground-coupled heat pump to exchange heat with the ground. After a brief overview of low-enthalpy geothermal plants, an apparatus designed and assembled by the author to carry out thermal response tests is presented. Data obtained by means of in situ thermal response tests are reported and evaluated by means of a finite-element simulation method, implemented through the software package COMSOL Multyphysics. The simulation method allows the determination of the precise value of the effective thermal properties of the ground and of the grout, which are essential for the design of borehole heat exchangers. In addition to the study of a single plant component, namely the borehole heat exchanger, in the third chapter is presented a thorough process for the plant design of a zero carbon building complex. The plant is composed of: 1) a ground-coupled heat pump system for space heating and cooling, with electricity supplied by photovoltaic solar collectors; 2) air dehumidifiers; 3) thermal solar collectors to match 70% of domestic hot water energy use, and a wood pellet boiler for the remaining domestic hot water energy use and for exceptional winter peaks. This chapter includes the design methodology adopted: 1) dynamic simulation of the building complex with the software package TRNSYS for evaluating the energy requirements of the building complex; 2) ground-coupled heat pumps modelled by means of TRNSYS; and 3) evaluation of the total length of the borehole heat exchanger by an iterative method developed by the author. An economic feasibility and an exergy analysis of the proposed plant, compared with two other plants, are reported. The exergy analysis was performed by considering the embodied energy of the components of each plant and the exergy loss during the functioning of the plants.

Il lascito di Agostino Mitelli ai quadraturisti e ai decoratori del secondo Seicento bolognese attraverso le testimonianze grafiche

Agostino Mitelli (1609-1660) è una figura centrale nella vicenda artistica bolognese. Rinnova profondamente la quadratura, genere in cui opera maggiormente, e diventa il principale riferimento per le generazioni successive. Infatti ha un grande numero di allievi che si fanno interpreti del suo stile e le sue opere continuano ad essere studiate fino a Settecento inoltrato. Nel suo lavoro accorda una grande importanza al mezzo grafico, in cui eccelle e che considera strumento di verifica ed esercizio. Questa predilezione influenza anche i suoi seguaci: dopo la sua morte i suoi disegni diventano molto ricercati e vengono impiegati come repertori di soluzioni di quadratura ed elementi decorativi. Sono essi stessi strumento di studio e infatti ci è pervenuto un grande numero di copie ed esercizi in stile mitelliano. L'analisi sistematica di questo materiale anonimo e poco studiato mi ha permesso di individuare alcune delle personalità di maggiore spicco tra i suoi seguaci, quali Domenico Santi, Giacomo Antonio Mannini e Marc'Antonio Chiarini. Per valutare l'influenza dell'opera di Agostino presso le generazioni successive è centrale anche la produzione calcografica che analizzo a partire dalle quattro serie di elementi di ornato che egli stesso dà alle stampe e che riscuotono molto successo, come provano le numerose ristampe, anche francesi. Dopo la sua morte vengono incise diverse imprese che si riallacciano al suo operato: la prima è quella del figlio Giuseppe Maria Mitelli che pubblica alcuni suoi disegni. Seguono le serie di Santi, Buffagnotti, Mannini, Chiarini e diversi altri che comprendono anche quadratura e veduta e che spesso sono state riassemblate da editori e collezionisti. Anche le fonti affrontano la questione della dipendenza delle successive generazioni dagli stilemi di Agostino Mitelli, oltre a quelle a stampa ho studiato approfonditamente i manoscritti inediti dell'altro figlio di Agostino, Giovanni Mitelli, che forniscono molte nuove notizie.

Towards cheaper, safer and low environmental impact materials for energy storage devices: natural resources-derived carbon based electrodes and aqueous electrolytes for supercapacitors

The growing market of electrical cars, portable electronics, photovoltaic systems..etc. requires the development of efficient, low-cost, and low environmental impact energy storage devices (ESDs) including batteries and supercapacitors.. Due to their extended charge-discharge cycle, high specific capacitance, and power capabilities supercapacitors are considered among the most attractive ESDs. Over the last decade, research and development in supercapacitor technology have accelerated: thousands of articles have been published in the literature describing the electrochemical properties of the electrode materials and electrolyte in addition to separators and current collectors. Carbon-based supercapacitor electrodes materials have gained increasing attention due to their high specific surface area, good electrical conductivity, and excellent stability in harsh environments, as well as other characteristics. Recently, there has been a surge of interest in activated carbon derived from low-cost abundant sources such as biomass for supercapacitor electrode materials. Also, particular attention was given to a major challenging issue concerning the substitution of organic solutions currently used as electrolytes due to their highest electrochemical stability window even though their high cost, toxicity, and flammability. In this regard, the main objective of this thesis is to investigate the performances of supercapacitors using low cost abundant safe, and low environmental impact materials for electrodes and electrolytes. Several prototypes were constructed and tested using natural resources through optimization of the preparation of appropriate carbon electrodes using agriculture by-products waste or coal (i.e. Argan shell or Anthracite from Jerrada). Such electrodes were tested using several electrolyte formulations (aqueous and water in salt electrolytes) beneficing their non-flammability, lower cost, and environmental impact; the characteristics that provide a promising opportunity to design safer, inexpensive, and environmentally friendly devices compared to organic electrolytes.