Global ETD Search

1	Usage des thermostats électroniques dans le marché résidentiel québécois une analyse microéconomique / Boucher, Pierre-Olivier. January 1900 (has links) (PDF) Thèse (M.A.)--Université Laval, 2005. / Titre de l'écran-titre (visionné le 6 octobre 2006). Bibliogr.
2	Modélisation du résonateur B.V.A. et étude des régimes transitoires thermiques en oscillateur. Galliou, Serge, January 1900 (has links) Th. doct.-ing.--Besançon, École nationale supérieure de méc. et des microtech., 1982. N°: 2.
3	Reducing domestic energy conusmption through inclusive interface design Combe, Nicola January 2012 (has links) With housing in the UK responsible for over a quarter of all building related carbon dioxide (CO2) emissions, it is becoming increasingly difficult to ignore the impact of occupant behaviour on such emissions. One area where occupant behaviour contributes largely towards emissions is space heating within domestic buildings. Despite technological improvements in the efficiency of heating systems, controls have become increasingly complex. Hence, there is a need to enable people to use their heating controls effectively in order to help reduce the associated CO2 emissions. This research found that significant numbers of people were excluded from using digital programmable thermostats, in particular people over 50 years old. The first study examined the scale of exclusion relating to digital programmable thermostats installed at a specific housing development. A second study explored in detail the reasons for exclusion from successfully programming a range of digital programmable thermostats. This was an in-depth usability study of heating controls that focused on the usability issues experienced by older people and was published in the Journal of Engineering Design. Based upon the outcomes of the first two studies a more inclusive heating control interface prototype was developed. The prototype demonstrated a reduction in both cognitive demands and associated user exclusion. Task success rates increased by 56.3% amongst older participants, and detailed energy modelling indicated that energy savings of 14.5-15.6% annually could be achievable. This work suggests that a more inclusive heating control interface could enable energy savings in the region of 15% through reducing the cognitive demands. Furthermore, this research challenges the existing paradigm and shows that inclusive design research may contribute to sustainable development in an environmental, as well as social, capacity.
4	Data Analysis in Energy Sun, Qiancheng 20 December 2022 (has links) No description available. Mechanical Engineering
5	Automated Residential Energy Audits and Savings Measurements Using A Smart WiFi Thermostat Enabled Data Mining Approach Alanezi, Abdulrahman Mubarak Q 18 May 2021 (has links) No description available. Engineering Energy Mechanical Engineering Smart WiFi thermostats energy auditing residential energy characteristics energy savings Machine learning energy consumption
6	User-centered evaluations of multi-modal building interfaces Kianpour rad, Simin 31 January 2025 (has links) In the evolving landscape of building systems and human-building interaction (HBI), the complexity of building interfaces has significantly increased, posing both challenges and opportunities for enhancing energy consumption, indoor environmental quality (IEQ), and building services. This dissertation, titled "User-centered Evaluation of Multi-modal Building Interfaces," delves into the realm of HBI by focusing on the user's experience and perception of multimodal building control interfaces, particularly the various visual modalities of Connected Thermostats (CTs). This body of work aims to support CTs' ongoing adoption, expansion, and performance through a user-centered perspective. The research is motivated by the observation that the design process in the current building industry often overlooks a human-centered approach, leading to a disconnection between occupants' needs and building interface design. This misalignment not only results in user dissatisfaction but also leads to a missed opportunity in leveraging smart building technologies to enhance building performance for achieving climate change mitigation goals. This research attempts to address the main identified gaps in the literature and AEC industry concerning 1) human interaction and perception of multimodal CT interfaces,2) the scarcity of knowledge in the field of human-computer-building interaction (HCBI) regarding the user study methods, 3) the exiting highly non-standard practices in the design of building interfaces. This research highlights 1) the necessity of a multimodal interaction approach, 2) robust mixed-methods User Experience (UX) summative evaluation studies, and 3) the need for standardization in HCBI. This body of work is grounded in the Technology Acceptance Model (TAM) and Human Information Processing (HIP) theories, aiming to foster the adoption of connected building controls with a special focus on usability by suggesting best practices in design and research. The methodology comprised three-step mixed-methods summative evaluation studies designed using a funnel approach to answer the general question: "How do users interact with connected thermostats, and how do these interactions inform our understanding of human-building interaction?": 1) The first and broadest study leveraged texting mining big data of user reviews to identify the general themes and patterns that affect the UX and acceptance of CTs. 2) The second study employed mixed-methods lab experiments to further focus on usability, being recognized as the most determining factor in the adoption of CTs in the first study. This study investigated human interaction with three of the most prevalent modalities of CTs: the Fixed Visual Display (FVD), the phone app, and the web portal. 3) The third study investigated human interaction with a specific visual aspect of UI of FVD and phone app modalities, the interface icons, with the goal of providing some data-driven guidelines for their standardization. Throughout the three studies, the dissertation employed and evaluated some novel and established HCI summative user evaluation methods, including a grounded theory approach for text mining and analyzing user-generated content, eye-tracking think-aloud protocol and contextual inquiry, A/B testing and NASA TLX and SUS surveys to evaluate UX, usability and mental workload. The dissertation outlined three discrete contributions: 1) It bridged some of the well-established UX research methods into HCBI and highlighted the potential of knowledge in the HCI field, 2) Provided guidance for human-centered design of multimodal building interfaces through identifying the main strengths, weaknesses, opportunities, and threats in UX of CTs, 3) Informed the standardization of UI of multimodal building interfaces. / Doctor of Philosophy / Modern building systems are becoming increasingly complex to enhance energy savings and improve occupant convenience. Traditional buildings are typically controlled by wall-mounted devices that manage lighting, temperature, and security. However, in smart buildings, occupants now have new ways to interact with these systems, including remote control options like smartphone apps. This research explores how people interact with and perceive different types of building controls. Specifically, it compares user experiences with two main types of controls: fixed controls, such as wall-mounted thermostats, and mobile controls, like smartphone apps. The goal is to improve the design of these controls to make them easier to use, widely adopted, and more effective in promoting energy efficiency and comfort. Among building controls, smart residential thermostats are particularly important. How they are designed and how people use them can significantly impact energy use in homes. However, advanced thermostats, especially those with programming features, are often seen as difficult to use for building occupants. Designers sometimes overlook the needs of users due to agile design processes or a limited understanding of user-centered design. These complex interfaces can lead to user frustration and missed opportunities to improve building performance. This research addresses these challenges by studying how people actually interact with different smart thermostat controls, including wall-mounted devices, phone apps, and web portals, emphasizing the importance of designing with user needs in mind. This study identifies the common issues users face with the dashboard of these devices, proposes solutions, and offers best practices for creating user-friendly building controls. This study makes three key contributions: First, it introduces well-known methods from other fields for designing and evaluating technology and applies these methods to evaluate the user experience of building controls. Methods include text analysis of user reviews, surveys, eye-tracking, and user performance measurements, some of which are relatively new in the context of human-building interaction. Additionally, the study provides guidance for future researchers in developing a user-centered framework for building interfaces by comparing these methods. Finally, it helps designers by identifying critical usability problems in building interfaces and highlighting opportunities for improvement. User Experience (UX) Research Human-Building Interaction (HBI) Multimodal Building Controls Connected Thermostats text-mining eye-tracking icon standardization
7	Case Study on Residential Humidity Control at U.S. Coast Guard Bayamon Housing Meneses, Ivan R. 21 November 2004 (has links) The intention of this study is to investigate the main source of unacceptable humidity levels at the U.S. Coast Guard Housing located in Bayamon, Puerto Rico. The aim of this research is to use a systematic approach to resolve the humidity and mold issues by testing the least expensive solutions first. This study involves the recording of indoor air quality conditions for six months as an analysis tool to investigate current air conditions and to document how physical changes to the air conditioning units will affect the resulting air conditions. This research will investigate and implement different approaches geared to solving the high humidity issues. Some of the most relevant changes that will be tested are the installation of heat pipe technology, the addition of fresh air to existing air conditioning units to create positive pressure, and the review of the space load design of currently installed air conditioning units to determine if the units were over-designed. In addition, this study will verify the relationship between energy-saving thermostats and high humidity, determine any connection between roof leaks and high humidity indoors, and determine the estimated cost to the Coast Guard to implement the recommended changes. Energy saving thermostats Heat pipe Z coils High humidity indoors Mold growth Hobo meters HVAC oversized Residential humidity control Heat pipes Humidity Testing Dwellings Humidity Case studies
8	Simulation des matériaux magnétiques à base Cobalt par Dynamique Moléculaire Magnétique. Beaujouan, David 07 November 2012 (has links) (PDF) Les propriétés magnétiques des matériaux sont fortement connectées à leur structure cristallographique. Nous proposons un modèle atomique de la dynamique d'aimantation capable de rendre compte de cette magnétoélasticité. Bien que ce travail s'inscrive dans une thématique générale de l'étude des matériaux magnétiques en température, nous la particularisons à un seul élément, le Cobalt. Dans ce modèle effectif, les atomes sont décrits par 3 vecteurs classiques qui sont position, impulsion et spin. Ils interagissent entre eux via un potentiel magnéto-mécanique ad hoc. On s'intéresse tout d'abord à la dynamique de spin atomique. Cette méthode permet d'aborder simplement l'écriture des équations d'évolution d'un système atomique de spins dans lequel la position et l'impulsion des atomes sont gelées. Il est toutefois possible de définir une température de spin permettant de développer naturellement une connexion avec un bain thermique. Montrant les limites d'une approche stochastique, nous développons une nouvelle formulation déterministe du contrôle de la température d'un système à spins.Dans un second temps, nous développons et analysons les intégrateurs géométriques nécessaires au couplage temporel de la dynamique moléculaire avec cette dynamique de spin atomique. La liaison des spins avec le réseau est assurée par un potentiel magnétique dépendant des positions des atomes. La nouveauté de ce potentiel réside dans la manière de paramétrer l'anisotropie magnétique qui est la manifestation d'un couplage spin-orbite. L'écriture d'un modèle de paires étendu de l'anisotropie permet de restituer les constantes de magnétostriction expérimentales du hcp-Co. En considérant un système canonique, où pression et température sont contrôlées, nous avons mis en évidence la transition de retournement de spin si particulière au Co vers 695K.Nous finissons par l'étude des retournements d'aimantation super-paramagnétiques de nanoplots de Co permettant de comparer ce couplage spin-réseau aux mesures récentes. Dynamique Moléculaire Magnétique Dynamique de Spin Atomique Cobalt Heisenberg Anisotropie Magnétostriction Magnétoélasticité Superparamagnétisme Ferromagnétisme Thermostats
9	New Residential Thermostat for Transactive Systems Chassin, David P. 16 December 2014 (has links) This thesis presents a residential thermostat that enables accurate aggregate load control systems for electricity demand response. The thermostat features a control strategy that can be modeled as a linear time-invariant system for short-term demand response signals from the utility. This control design gives rise to linear time-invariant models of aggregate load control and demand response, which is expected to facilitate the design of more accurate load-based regulation services for electricity interconnections and enable integration of more highly variable renewable electricity generation resources. A key feature of the new thermostat design is the elimination of aggregate short-term load control error observed with existing real-time pricing thermostats as they respond to price signals. / Graduate / 0548 / 0791 / 0544 / dchassin@uvic.ca Residential energy use Heat pump thermostats Retail electricity pricing Renewable energy integration Transactive control Electricity demand response Real-time electricity pricing
10	Simulation des matériaux magnétiques à base Cobalt par Dynamique Moléculaire Magnétique / Simulation of Cobalt base materials using Magnetic Molecular Dynamics Beaujouan, David 07 November 2012 (has links) Les propriétés magnétiques des matériaux sont fortement connectées à leur structure cristallographique. Nous proposons un modèle atomique de la dynamique d'aimantation capable de rendre compte de cette magnétoélasticité. Bien que ce travail s'inscrive dans une thématique générale de l'étude des matériaux magnétiques en température, nous la particularisons à un seul élément, le Cobalt. Dans ce modèle effectif, les atomes sont décrits par 3 vecteurs classiques qui sont position, impulsion et spin. Ils interagissent entre eux via un potentiel magnéto-mécanique ad hoc. On s'intéresse tout d'abord à la dynamique de spin atomique. Cette méthode permet d'aborder simplement l'écriture des équations d'évolution d'un système atomique de spins dans lequel la position et l'impulsion des atomes sont gelées. Il est toutefois possible de définir une température de spin permettant de développer naturellement une connexion avec un bain thermique. Montrant les limites d'une approche stochastique, nous développons une nouvelle formulation déterministe du contrôle de la température d'un système à spins.Dans un second temps, nous développons et analysons les intégrateurs géométriques nécessaires au couplage temporel de la dynamique moléculaire avec cette dynamique de spin atomique. La liaison des spins avec le réseau est assurée par un potentiel magnétique dépendant des positions des atomes. La nouveauté de ce potentiel réside dans la manière de paramétrer l'anisotropie magnétique qui est la manifestation d'un couplage spin-orbite. L'écriture d'un modèle de paires étendu de l'anisotropie permet de restituer les constantes de magnétostriction expérimentales du hcp-Co. En considérant un système canonique, où pression et température sont contrôlées, nous avons mis en évidence la transition de retournement de spin si particulière au Co vers 695K.Nous finissons par l'étude des retournements d'aimantation super-paramagnétiques de nanoplots de Co permettant de comparer ce couplage spin-réseau aux mesures récentes. / The magnetic properties of materials are strongly connected to their crystallographic structure. An atomistic model of the magnetization dynamics is developed which takes into account magneto-elasticity. Although this study is valid for all magnetic materials under temperatures, this study focuses only on Cobalt. In our effective model, atoms are described by three classical vectors as position, momentum and spin, which interact via an ad hoc magneto-mechanical potential.The atomistic spin dynamics is first considered. This method allows us to write the evolution equations of an atomic system of spins in which positions and impulsions are first frozen. However, a spin temperature is introduced to develop a natural connection with a thermal bath. Showing the limits of the stochastic approach, a genuine deterministic approach is followed to control the canonical temperature in this spin system.In a second step, several geometrical integrators are developed and analyzed to couple together both the molecular dynamics and atomic spin dynamics schemes. The connection between the spins and the lattice is provided by the atomic positions dependence of the magnetic potential. The novelty of this potential lies in the parameterization of the magnetic anisotropy which originates in the spin-orbit coupling. Using a dedicated pair model of anisotropy, the magnetostrictive constants of hcp-Co are restored. In a canonical system where pressure and temperature are controlled simultaneously, the transition of rotational magnetization of Co is found.Finally the magnetization reversals of super-paramagnetic Co nanodots is studied to quantify the impact of spin-lattice coupling respectively to recent measurements. Dynamique Moléculaire Magnétique Dynamique de Spin Atomique Cobalt Heisenberg Anisotropie Magnétostriction Magnétoélasticité Superparamagnétisme Ferromagnétisme Thermostats Magnetic Molecular dynamics Atomistic Spin Dynamics Cobalt Heisenberg model Anisotropy Magnetostriction Magnetoelasticity Superparamagnetism Ferromagnetism Thermostat Stochastic and deterministic approaches.

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