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José Candanedo

Professeur, Faculté de génie
FAC. GÉNIE Civil et bâtiment

Présentation

Sujet de recherche

Heating and Refrigeration, Control System, Modelization and Simulation

Disciplines de recherche

Mechanical Engineering, Electrical Engineering and Electronic Engineering

Mots-clés

Load management in buildings, Building-grid interaction, Predictive control for buildings, Control-oriented modelling, Energy storage

Intérêts de recherche

Control of HVAC systems, building-integrated renewables, thermal energy storage, predictive control, load management and building-grid interaction, net-zero energy buildings (NZEBs)

Langues parlées et écrites

Anglais, Français, Espagnol (castillan)

Diplômes

(2011). A Study of Predictive Control Strategies for Optimally Designed Solar Home (Doctorate, Doctor of Philosophy). Concordia University.

(2004). Time-mean wall static pressure distributions and module friction factors for spatially periodic fully developed flows in interrupted-plate rectangular ducts (Master's Thesis, Master of Engineering). McGill University.

(1999). (Bachelor's, Licenciatura en ingeniería electromecánica).

Titres de compétence

(2027) Candidat à la profession d'ingénieur (CPI).

Expérience académique

Associate Professor. (2023-). Université de Sherbrooke. Canada.

Affiliate Professor. (2015-). Concordia University. Canada.

Prix et distinctions

  • Dean's Honour List. McGill University. (Citation).
  • High Honours (Con Altos Honores). Universidad Tecnológica de Panamá. (Citation).
  • Scientific outreach / rayonnement scientifique. CanmetENERGY in Varennes. (Prize / Award).

Financement

  • Grant. (Awarded). Principal Investigator. Discovery Grant: Model-based control of high-performance building systems. Natural Sciences and Engineering Research Council of Canada (NSERC). Discovery Grant. 120 000 $. (2016-2021)
  • Fellowship. (Awarded). Principal Applicant. Postdoctoral Visiting Fellowship, NSERC. (2011-2013)
  • Scholarship. (Awarded). Principal Applicant. Alexander Graham Bell Graduate Scholarship (CGS D2), NSERC. (2008-2010)

Publications

Articles de revue

  • Saloux, E; Zhang, K; Candanedo, J. (2023). A critical perspective on current research trends in building operation: pressing challenges and promising opportunities. Buildings (Submitted).
  • Nguyen, A; Candanedo, J. (2023). A load decomposition framework for the rapid characterization of thermal energy storage systems in buildings. Applied Energy (Submitted).
  • Vallianos, C; Candanedo, J; Athienitis, A. (2023). Application of a large smart thermostat dataset for model calibration and Model Predictive Control implementation in the residential sector. Energy 278 (A), (Accepted).
  • Sartori, I; Walnum, H; Skeie, K; Georges, L Knudsen, M; Bacher, P; Candanedo, J; Sigounis, A; Prakash, A; Pritoni, M; Granderson, J; Yang, S; Wan, M. (2023). Sub-hourly measurement datasets from 6 real buildings: Energy use and indoor climate. Data in Brief 48 (Published).
  • Candanedo, J; Vallianos, C*, Delcroix, B; Date, J; Saberi-Derakhtenjani, A; Morovat, N*: John, C; Athienitis, A. (2022). Control-oriented archetypes: a pathway for the systematic application of advanced controls in buildings. Journal of Building Performance Simulation 15 (4), 433-444. (Published).
  • Morovat, N*; Athienitis, A; Candanedo, J; Delcroix, B. (2022). Data-driven model-based control strategies to enhance energy flexibility in electrically heated school buildings. Buildings 12 (5), (Published).
  • Date, J; Candanedo, J; Athienitis, A. (2021). A methodology for the enhancement of the energy flexibility and contingency response of a building through predictive control of passive and active storage. Energies 14 (5), (Published).
  • Saloux, E; Candanedo, J. (2021). Model-based predictive control to minimize primary energy use in a solar district heating system with seasonal thermal energy storage. Applied Energy 291 (Published).
  • Cotrufo, N; Saloux, E; Hardy, J-M, Candanedo, J, Platon, R. (2020). A practical artificial intelligence-based approach for predictive control in commercial and institutional buildings. Energy and Buildings 206 (Published).
  • Date, J*; Candanedo, J; Athienitis, A; Lavigne, K. (2020). Development of reduced order thermal dynamic models for building load flexibility of an electrically heated high temperature thermal storage device. Science and Technology for the Built Environment 26 (7), 957-974. (Published).
  • Md Shamim Ahamed Radu Zmeureanu Nunzio Cotrufo José A. Candanedo. (2020). Gray-box virtual sensor of the supply air temperature of air handling units. Science and Technology for the Built Environment 26 (8), (Published).
  • Saloux, E; Candanedo, J. (2020). Optimal rule-based control for the management of thermal energy storage in a Canadian solar district heating system. Solar Energy 207 1191-1201. (Published).
  • Saloux, E; Candanedo, J. (2019). Control-oriented model of a solar community with seasonal thermal energy storage: development, calibration and validation. Journal of Building Performance Simulation 12 (5), 523-545. (Published).
  • Saloux, E; Candanedo, J. (2019). Modelling stratified thermal energy storage tanks using an advanced flow rate distribution of the received flow. Applied Energy 241 34-45. (Published).
  • Morovat, N*; Athienitis, A; Candanedo, J; Dermardiros, V. (2019). Simulation and Performance Analysis of an Active PCM-Heat Exchanger Intended for Building Operation Optimization. Energy and Buildings 199 47-61. (Published).
  • Papachristou, A*; Vallianos, C*; Dermardiros, V*; Athienitis, A; Candanedo, J. (2018). A numerical and experimental study of a simple model-based predictive control strategy in a perimeter zone with phase change material. Science and Technology for the Built Environment 24 (9), 933-944. (Published).
  • Padilla, M; Choinière, D; Candanedo, J. (2015). A model-based strategy for self-correction of sensor faults in VAV air handling units. Science and Technology for the Built Environment 1-15. (Published).
  • Saberi-Derakhtenjani, A*; Candanedo, J; Chen, YX; Dehkordi, VR; Athienitis, A. (2015). Modeling approaches for the characterization of building thermal dynamics and model-based control: a case study. Science and Technology for the Built Environment 21 (6), 824-836. (Published).
  • Candanedo, J; Dehkordi, VR; Saberi-Derakhtenjani, A*, Athienitis, A. (2015). Near-optimal transition between temperature setpoints for peak load reduction in small buildings. Energy and Buildings 87 123-133. (Published).
  • Salom, J; Widén, J; Candanedo, J; Lindberg, K. (2014). Analysis of grid interaction indicators in net-zero energy buildings with sub-hourly collected data. Advances in Building Energy Research 9 (1), 89-106. (Published).
  • Salom, J; Marszal, A; Widén, J; Candanedo, J; Lindberg, K. (2014). Analysis of load match and grid interaction indicators in net zero energy buildings with simulated and monitored data. Applied Energy 136 119-131. (Published).
  • Candanedo, J; Dehkordi, V; Stylianou, M. (2013). Model-based predictive control of an ice storage device in a building cooling system. Applied Energy 111 1032-1045. (Published).
  • Candanedo, J*; Athienitis, A. (2011). Predictive control of radiant floor heating and solar-source heat pump operation in a solar house. HVAC & R Research 17 (3), 235-256. (Published).
  • Candanedo, J; Allard, A*; Athienitis, A. (2011). Predictive control of radiant floor heating and transmitted irradiance in a room with high solar gains. ASHRAE Transactions 117 (2), 652-665. (Published).
  • Candanedo, J*; Athienitis, A. (2010). Investigation of anticipatory control strategiesin a net-zero energy solar house. ASHRAE Transactions 116 (1), 246-259. (Published).
  • Candanedo, L*; Athienitis, A; Candanedo, J*; O'Brien, W*; Chen, YX*. (2010). Transient and steady state models for open-loop air-based BIPV/T systems. ASHRAE Transactions 116 (1), 600-612. (Published).

Chapitres de livre

  • Candanedo JA, Salom J, Widén J, Athienitis AK. (2015). Load matching, grid interaction and advanced control. Athienitis AK, O'Brien W. Modeling, design and optimization of net-zero energy buildings (1, 207-240). Ernst & Sohn. (Published).
  • Athienitis AK, Candanedo JA*, Musall E*. (2011). ÉcoTerra Home. Voss K, Musall E*. Net Zero Energy Buildings (1, 60-63). EnOB: Forschung für Energieoptimiertes Bauen, DETAIL - Green Books. (Published).

Articles de magazine

  • Candanedo, J. (2016). Maisons et bâtiments nets zéro. Urbanité - Revue de l'Ordre des Urbanistes du Québec. Été 2016

Rapports

  • White, S; Marszal-Pomianowska, A.; Jin, G.Y; Madsen, H; Candanedo, J.; Harmelink, M.; Stensson, S.; Gori, V. (2023). A data sharing guideline for buildings and HVAC systems (Energy in Buildings and Technology Program, IEA). International Energy Agency. 57 p.

Articles de conférence

  • Navid Morovat Andreas K. Athienitis José A. Candanedo. (2022). A Heuristic Model Predictive Control Method to Activate the Energy Flexibility of School Buildings. Purdue ePubs, (Published).
  • Giulio Tonellato Michael Kummert José A. Candanedo Gabrielle Beaudry Philippe Pasquier. (2022). Control strategy evaluation framework for ground source heat pumps using standing column wells. Proceedings of IGSHPA 2022, (Published).
  • Navid Morovat Andreas K. Athienitis José A. Candanedo. (2022). Enhancing energy flexibility of a school building using local setpoint adjustment in classrooms. Proceedings of COBEE 2022, (Published).
  • Navid Morovat Andreas K. Athienitis José A. Candanedo. (2021). Application of grey-box models for the quantification of the energy flexibility of a school building in Canada. Proceedings of ASHRAE Annual Conference, (Published).
  • Étienne Saloux Nunzio Cotrufo José A. Candanedo. (2021). A practical data-driven multi-model approach to model predictive control: results from implementation in an institutional building. Purdue ePubs, (Published).
  • Navid Morovat José A. Candanedo Andreas K. Athienitis. (2021). Data analysis, modelling, and energy flexibility assessment of an educational building in Canada. Proceedings of eSim 2020, (Published).
  • Navid Morovat José A. Candanedo Andreas K. Athienitis. (2021). Energy flexibility quantification with integrated heat pump, floor heating system and thermal storage in a school building. Proceedings of IBPSA 2021, (Published).
  • Nunzio Cotrufo José A. Candanedo. (2019). A novel local correction-based (LC-b) approach for low-order control-oriented models. Proceedings CISBAT 2019, (Published).
  • Navid Morovat José A. Candanedo Andreas K. Athienitis. (2019). Performance Analysis and Control Strategies to Enhance Free Cooling with an Active PCM-Heat Exchanger. Proceedings of IBPSA 2019, (Published).
  • José A. Candanedo Ali Saberi-Derakhtenjani Katherine D'Avignon Andreas K. Athienitis. (2018). A pathway for the derivation of control-oriented models for radiant floor heating applications. Proceedings of eSim 2018, (Published).
  • Jennifer Date José A. Candanedo Andreas K. Athienitis Karine Lavigne. (2018). Control-oriented modelling of an air-based electric thermal energy storage device (CH-18-C051). ASHRAE Winter Conference, (Published).
  • Étienne Saloux José A. Candanedo. (2018). Control-oriented modelling of stratified storage tanks: an enhanced approach. Proceedings of eSim 2018, (Published).
  • Camille John Charalampos Vallianos José A. Candanedo Andreas K. Athienitis. (2018). Estimating time constants for over 10,000 residential buildings in North America: towards a statistical characterization of thermal dynamics. Proceedings of IBPC 2018, (Published).
  • Étienne Saloux José A. Candanedo. (2018). Forecasting District Heating Demand Using Machine Learning Algorithms. Proceedings of DHC 2018, (Published).
  • José A. Candanedo Étienne Saloux Jean-Marc Hardy Radu Platon Vahid Raissi-Dehkordi Alexandre Côté. (2018). Preliminary Assessment of a Weather Forecast Tool for Building Operation. Purdue ePubs, (Published).
  • Jennifer Date José A. Candanedo Andreas K. Athienitis Karine Lavigne. (2017). Predictive setpoint optimization of a commercial building subject to a winter demand penalty affecting 12 months of utility bills. Proceedings of IBPSA 2017, (Published).

Autres contributions

Cours enseignés

  • Fundamentals of Smart Buildings Operation. BLDG 6111. (2022-01-05 à 2022-05-04).(4CR).
  • Computer-aided Building Operation. BLDG 6111. (2020-01-06 à 2020-05-01).(4CR).
  • Building Illumination and Daylighting. BLDG474 / BLDG6731. (2012-09-03 à 2012-12-14).(4CR).
  • Hygrothermal Performance of the Building Envelope. BLDG 6661. (2012-01-03 à 2011-04-08).(4CR).

Activités de collaboration internationale

  • Subtask Leader. Canada. IEA EBC - Annex 81 - Data-Driven Smart Buildings. This activity, within the framework of the International Energy Agency technical program on Buildings and Communities, brings together researchers from over 20 countries, envisioning a future in which the availability of data from buildings enables digital solutions to improve energy efficiency, enhance building-grid interaction and facilitate fault detection and diagnosis.
  • PhD Researcher. IEA Task 40 / Annex 52 - Towards Net Zero Energy Solar Buildings, an activity of the International Energy Agency involving participants from Canada, Germany, Italy, Norway, USA, Singapore, Korea, Denmark, Sweden and Spain.

Présentations

  • (2022). Data-Driven Smart Buildings: A New Era. 5th International Conference on Building Energy and Environment (COBEE). Montreal, Canada
  • (2017). The role of big data in predictive control: challenges and opportunities. Workshop on Big Data in Building Operations. Ottawa, Canada
  • Vahid Raissi-Dehkordi. (2015). Activités de recherche sur la régulation automatique à base de modèles dans les bâtiments. Présentation scientifique. Varennes, Canada
  • Justin Tamasauskas. (2015). Advanced control of heat pumps and the impact on building/grid interactions. CZEBS-iiSBE NZEB Symposium. Montreal, Canada
  • (2014). Beyond annual net-zero energy balance: smart buildings and their interaction with the grid – Report on related activities in IEA Task 40/Annex 52. Mini-forum on Canadian Perspectives on RD&D Activities in Low and Net-Zero Energy Solar Buildings and Communities. Varennes, Canada
  • (2014). Beyond annual net-zero energy balance: smart buildings and their interaction with the grid – Report on related activities in IEA Task 40/Annex 52. Mini-forum on Canadian Perspectives on RD&D Activities in Low and Net-Zero Energy Solar Buildings and Communities. Varennes, Canada
  • (2014). Optimized operation of net-zero energy buildings. PhD Summer School (SNEBRN and the International Association of Building Physics). Montréal, Canada
  • (2014). Optimized operation of net-zero energy buildings. PhD Summer School (SNEBRN and the International Association of Building Physics). Montreal, Canada
  • (2013). Considerations on the operation of smart homes and small buildings. 2nd Annual General Meeting – NSERC Smart Net-Zero Energy Buildings Strategic Research Network. Ottawa, Canada
  • (2013). Model-based predictive control and building-grid interaction. Workshop organized by IEA Task 40/Annex 52 in the context of IBPSA. Chambéry, France
  • Amélie Allard. (2013). System identification for building thermal modelling. Workshop at Concordia University. Montreal, Canada
  • Meli Stylianou. (2012). Integration and control of renewable technologies in high performance buildings: challenges and opportunities. Controlling Green Buildings (Workshop organized in the context of ACC 2012). Varennes, Canada
  • (2011). Les maisons avancées : stockage de la chaleur et contrôle prédictif. 79e Congrès de l’ACFAS. Sherbrooke, Canada
  • Scott Bucking Amélie Allard Andreas K. Athienitis. (2011). Model-based predictive control applications for solar homes and communities. Model Predictive Control in Buildings Workshop. Montréal, Canada
  • Amélie Allard Diane Bastien. (2010). Maisons à consommation énergétique nulle au Québec: opportunités et défis. Forum Régional Montérégie, Rendez-vous de l’énergie. Mont St-Hilaire, Canada
  • (2010). Performance Modeling and Systems Integration Strategies-Alstonvale House. CMHC EQuilibrium Housing Forum–True Stories: Sustainability in Action. Montréal, Canada