Publikationer av Jose Enrique Acuna Sequera
Refereegranskade
Artiklar
[1]
W. Mazzotti et al., "Calibration and Uncertainty Quantification for Single-Ended Raman-Based Distributed Temperature Sensing : Case Study in a 800 m Deep Coaxial Borehole Heat Exchanger," Sensors, vol. 23, no. 12, 2023.
[2]
M. Abuasbeh et al., "Long term performance monitoring and KPIs' evaluation of Aquifer Thermal Energy Storage system in Esker formation : Case study in Stockholm," Geothermics, vol. 96, 2021.
[3]
M. L. Fasci et al., "Simulation of thermal influence between independent geothermal boreholes in densely populated areas," Applied Thermal Engineering, vol. 196, 2021.
[4]
W. Mazzotti Pallard et al., "Design methodology for laboratory scale borehole storage : An approach based on analytically-derived invariance requirements and numerical simulations," Geothermics, vol. 87, 2020.
[5]
N. Aranzabal et al., "Novel instruments and methods to estimate depth-specific thermal properties in borehole heat exchangers," Geothermics, vol. 86, 2020.
[6]
M. L. Fasci et al., "Analysis of the thermal interference between ground source heat pump systems in dense neighborhoods," Science and Technology for the Built Environment, vol. 25, no. 8, s. 1069-1080, 2019.
[7]
P. Monzó et al., "Numerical modeling of ground thermal response with borehole heat exchangers connected in parallel," Energy and Buildings, vol. 172, s. 371-384, 2018.
[8]
P. Monzó et al., "A monthly based bore field sizing methodology with applications to optimum borehole spacing," ASHRAE Transactions, vol. 122, no. 1, s. 111-126, 2016.
[9]
H. Holmberg et al., "Numerical model for non-grouted borehole heat exchangers : Part 2-Evaluation," Geothermics, vol. 59, s. 134-144, 2016.
[10]
H. Holmberg et al., "Thermal evaluation of coaxial deep borehole heat exchangers," Renewable energy, vol. 97, s. 65-76, 2016.
[11]
P. Monzó et al., "A novel numerical approach for imposing a temperature boundary condition at the borehole wall in borehole fields," Geothermics, vol. 56, s. 35-44, 2015.
[12]
F. Ruiz-Calvo et al., "Experimental validation of a short-term Borehole-to-Ground (B2G) dynamic model," Applied Energy, vol. 140, s. 210-223, 2015.
[13]
R. A. Beier et al., "Transient heat transfer in a coaxial borehole heat exchanger," Geothermics, vol. 51, s. 470-482, 2014.
[14]
R. A. Beier et al., "Borehole resistance and vertical temperature profiles in coaxial borehole heat exchangers," Applied Energy, vol. 102, s. 665-675, 2013.
[15]
J. Acuña och B. Palm, "Distributed thermal response tests on pipe-in-pipe borehole heat exchangers," Applied Energy, vol. 109, no. SI, s. 312-320, 2013.
[16]
R. A. Beier et al., "Vertical temperature profiles and borehole resistance in a U-tube borehole heat exchanger," Geothermics, vol. 44, s. 23-32, 2012.
[17]
J. Acuña, P. Mogensen och B. Palm, "Distributed Thermal Response Tests on a Multi-pipe Coaxial Borehole Heat Exchanger," HVAC & R RESEARCH, vol. 17, no. 6, s. 1012-1029, 2011.
Konferensbidrag
[18]
M. Abuasbeh och J. Acuña, "ATES SYSTEM MONITORING PROJECT, FIRST MEASUREMENT AND PERFORMANCE EVALUATION: CASE STUDY IN SWEDEN," i Proceedings of the IGSHPA Research Track 2018, 2018.
[19]
W. Mazzotti et al., "Design of a Laboratory BoreholeStorage model," i Research Conference Proceedings, 2018, s. 400-410.
[20]
M. Malmberg et al., "High temperature borehole thermal energy storage - A case study," i Research Conference Proceedings, 2018, s. 380-388.
[21]
M. L. Fasci et al., "Shallow Geothermal Heat Pumps: a study of the resource potential at a neighbourhood scale.," i ICNTSE 2018, 2018.
[22]
W. Mazzotti et al., "The Newton-Raphson MethodApplied to the Time-Superposed ILS for Parameter Estimation in Thermal Response Tests," i Research Conference Proceedings : International Ground-Source Heat Pump Association Research Conference 2018, 2018, s. 208-218.
[23]
M. Ignatowicz et al., "Different ethyl alcohol secondary fluids used for GSHP in Europe," i 12th IEA Heat Pump Conference, Rotterdam, 2017, 2017.
[24]
P. Monzó, A. Lazzarotto och J. Acuña, "First Measurements of a Monitoring project on a BTES system," i IGSHPA Technical/Research Conference and Expo, Denver, March 14-16, 2017, 2017.
[25]
M. Ignatowicz et al., "Alternative alcohol blends as secondary fluids for ground source heat pumps," i Refrigeration Science and Technology, 2016, s. 610-617.
[26]
A. Lazzarotto, J. Acuña och P. Monzó, "Analysis and modeling of a large borehole system in Sweden," i European Geothermal Congress 2016, Strasbourg, France, 19-24 Sept 2016, 2016.
[27]
M. Ignatowicz et al., "Methods of BHE flushing, charging and purging in Sweden," i Proceedings, 2016.
[28]
P. Monzó et al., "Monitoring of a borehole thermal energy storage in Sweden," i CLIMA 2016-proceedings of the 12th REHVA World Congress: volume 3, 2016.
[29]
L. Zhang et al., "Improved p(t)-linear Average Method for Ground Thermal Properties Estimation during in-situ Thermal Response Test," i Procedia Engineering, 2015, s. 726-734.
[30]
M. Derouet, P. Monzó och J. Acuña, "Monitoring and Forecasting the Thermal Response of an Existing Borehole Field," i Proceedings World Geothermal Congress 2015, 2015.
[31]
P. Monzó, P. Mogensen och J. Acuña, "A novel numerical model for the thermal response of borehole heat exchangers fields," i The 11th International Energy Agency Heat Pump Conference,Montreal, May 12-16, 2014, 2014, s. 1-10.
[32]
P. Monzó et al., "Experimental Validation of a Numerical Model for the Thermal Response of a Borehole Field," i ASHRAE TRANSACTIONS 2014, VOL 120, PT 2, 2014.
[33]
J. Penttilä, J. Acuña och P. Monzó, "Temperature stratification of circular borehole thermal energy storages," i The 11th International Energy Agency Heat Pump Conference,2014, May 12-16 2014, Montréal (Québec) Canada, 2014, s. 1-11.
[34]
P. Monzó et al., "A study of the thermal response of a borehole field in winter and summer," i International Conference on Applied Energy ICAE Jul 1-4, 2013, Pretoria, South Africa, 2013.
[35]
P. Monzó et al., "Numerical generation of the temperature response factors for a borehole heat exchanger field," i Numerical generation of the temperature response factors for a borehole heat exchanger field, 2013.
[36]
P. Monzó, J. Acuña och B. Palm, "Analysis of the influence of the heat power rate variations in different phases of a Distributed Thermal Response Test," i Innostock- The 12th International Conference on Energy Storage, 16-18 May 2012,Lleida , Spain, 2012, s. 10.
[37]
J. Acuna et al., "Numerically generated g-functions for ground coupled heat pump applications," i Proceedings of the COMSOL Conference in Milan, 2012.
[38]
J. Acuña och B. Palm, "Distributed Temperature Measurements on a Multi-pipe Coaxial Borehole Heat Exchanger," i IEA Heat Pump Conference, 2011, s. 4.19.
[39]
J. Acuña och B. Palm, "First Experiences with Coaxial Borehole Heat Exchangers," i Proceedings of the IIR Conference on Sources/Sinks alternative to the outside Air for HPs and AC techniques, 2011.
[40]
J. Acuña och B. Palm, "A novel coaxial BHE : Description and first Distributed Thermal Response Test Measurements," i Proceedings World Geothermal Congress 2010, 2010, s. paper 2953.
[41]
J. Acuña och B. Palm, "Comprehensive Summary of Borehole Heat Exchanger Research at KTH," i IIR/Eurotherm Sustainable Refrigeration and Heat Pump Technology Conference, 2010, s. 69.
[42]
J. Acuña et al., "Distributed Temperature Measurements on a U-pipe Thermosyphon Borehole Heat Exchanger With CO2," i Refrigeration Science and Technology Proceedings, 2010.
[43]
J. Acuña, P. Mogensen och B. Palm, "Evaluation of a coaxial borehole heat exchanger prototype," i Proceedings of the 14th ASME International Heat Transfer Conference, 2010.
[44]
H. Madani et al., "The Ground Source Heat Pump : A System Analysis With a Particular Focus on The U-Pipe Borehole Heat Exchanger," i 2010 14th International Heat Transfer Conference, Volume 4, 2010, s. 395-402.
[45]
J. Acuña, P. Mogensen och B. Palm, "Distributed Thermal Response Test on a U-Pipe Borehole Heat Exchanger," i Proc. Effstock 2009, 11th International Conference on Thermal Energy Storage, 2009.
[46]
J. Acuña, B. Palm och P. Hill, "Characterization of Boreholes : Results from a U-pipe Borehole Heat Exchanger Installation," i Proceedings 9th IEA Heat Pump Conference 2008 : Conference Proceedings, 2008, s. 4-19.
[47]
J. Acuña och B. Palm, "Experimental Comparison of Four Borehole Heat Exchangers," i Refrigeration Science and Technology Proceedings, 2008, s. SEC09-W1-09.
Icke refereegranskade
Artiklar
[48]
P. Monzó et al., "Borehole Thermal Energy Storage : First stages of a monitoring project," Geo Outlook, vol. 13, no. 3, s. 14-20, 2016.
[49]
[50]
J. Acuña, "Effektivare Utnyttjande av Energibrunnar för Värmepumpar Undersöks på KTH," KYLA Värmepumpar, vol. 6, 2010.
[51]
[52]
[53]
[54]
Böcker
[55]
E. Björk et al., Bergvärme på djupet : Boken för dig som vill veta mer om bergvärmepumpar. 100. uppl. Stockholm : KTH Royal Institute of Technology, 2013.
Avhandlingar
[56]
J. Acuña, "Distributed thermal response tests : New insights on U-pipe and Coaxial heat exchangers in groundwater-filled boreholes," Doktorsavhandling Stockholm : KTH Royal Institute of Technology, Trita-REFR, 13:01, 2013.
[57]
J. Acuña, "Improvements of U-pipe Borehole Heat Exchangers," Licentiatavhandling Stockholm : KTH, TRITA-REFR, 10/01, 2010.
Rapporter
[58]
[59]
Övriga
[60]
P. Monzó et al., "Numerical Modelling of Ground Thermal Response with Borehole Heat Exchangers Connected in Parallel," (Manuskript).
Senaste synkning med DiVA:
2024-04-21 03:11:41