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| Title | Author | Paper # | ||
| WEDNESDAY - May 31st | ||||
| 8:30 -9:50 — Session 1A - Plenary Session | ||||
| Keynote Address | np | |||
| IEA Energy Conservation Through Energy Storage Implementing Agreement Overview | Volkmar Lottner | np | ||
| Overview of Technology Storage | Imre Gyuk | np | ||
| Sustainable Cooling with Thermal Energy Storage From IEA ECES Annex 14 to IEA ECES Annex 20 | Halime Paksoy | np | ||
| 10:15-11:15 — Session 2A - General Overviews | ||||
| Promoting TES in Sweden | Signhild Gehlin | 89 | ||
| Underground Thermal Energy Storage in Canada | Edward Morofsky | np | ||
| R+D Programme on TES in Germany | Astrid Wille | 134 | ||
| 11:15-12:35 — Session 3A - General And Underground Thermal Energy Storage Overviews | ||||
| TES in Turkey | Hunay Evliya | np | ||
| ATES market development in the Netherlands | Aart L.Snijders | np | ||
| Status of underground thermal energy storage in Belgium | Johan Desmedt | 90 | ||
| Status of UTES in Norway | Kirsti Midttømme | np | ||
| Session 3B - Phase Change Materials /Thermochemical Storage/Solar Overviews | ||||
| Commerialization of TES in USA | Mark MacCracken | np | ||
| Thermal Energy Storage in Spain | Luisa Cabeza | np | ||
| Application of Ice Storage in China | Zhao Xiaoyu | 109 | ||
| Thermal Energy Storage in Poland | Roman Domanski | np | ||
| 12:35-2:25 — Session 4A - Lunch and Posters: Topics in Underground Thermal Energy Storage | ||||
| Aquifer Thermal Energy Storage: Projects Implemented in Germany | Peter Seibt | 14 | ||
| Aquifer Thermal Energy Storage Application in Greenhouse climatisation | Bekir Turgut | 16 | ||
| Enhanced Heat Transfer for Vertical Borehole Heat Exchange | withdrawn | 18 | ||
| Modeling of Vertical Ground Loop Heat Exchangers with variable convective Resistance and Thermal Mass of the Fluid | Xiaowei Xu | 21 | ||
| Thermal Response test while drilling | Anna-Maria Gustafsson | 125 | ||
| Impact of Thermal Buildup on Groundwater Chemistry and Aquifer Microbes | Karen York | 150 | ||
| The Continued Warming of the Geothermal Well Field at Richard Stockton College: A Ten Year Study | Louise Sowers | 151 | ||
| Session 4B - Lunch and Posters: Phase Change Materials / Thermochemical Storage/Solar | ||||
| Research on Thermal Storage using Rock Wool PCM Ceiling Board. | Takeshi Kondo | 25 | ||
| A study on a practical measurement of thermal characteristics phase change materials for building use. | Motoi Yamaha | 30 | ||
| Mixing Model for Thermal Energy Storage Water Tank of Multi-connected Mixing Type | Hiroaki Kitano | 49 | ||
| Stabilization of Glauber’s salt with Support Materials and Using as Phase Change Material | Ozgul Gok | 54 | ||
| Experimental Investigation of the pressure drop of clathrate hydrates slurry flow of tetra butyl ammonium bromide in straight pipes | Rui Xiao | 61 | ||
| A novel design of heat sink with PCM for electronics cooling. | Maciej Jaworski | 62 | ||
| Ventilation Performance if Solar Chimney with Built-in Latent Heat Storage | Yutaka Kaneko | 102 | ||
| Heat storage systems for use in an industrial batch process: results of a case study, | Robert de Boer | 114 | ||
| 12:25-4:05 — Session 5A - Underground Thermal Energy Storage Overviews | ||||
| Experiences with ATES applications in Flanders | Hans Hoes | 8 | ||
| The application of Aquifer Thermal Energy Storage to a city centre carbon emissions reduction programme at the South Kensington Cultural and Academic Estate, London, England | R. Shennan | 87 | ||
| 10 years VDI | Manfred Reuss | 93 | ||
| Practice and Task Developing Underground Thermal Energy Storage in China | Withdrawn | 35 | ||
| Session 5B - Phase Change Material | ||||
| TES in Japan | Tadahiko Ibamoto | np | ||
| Overview of thermochemical storage | Andreas Hauer | np | ||
| Ice Thermal Storage and LEED Gold | Mark MacCracken | 137 | ||
| IEA solar heating and cooling program task 32 | Jean-Christophe Hardorn | 132 | ||
| 4:20-6:00 — Session 6A - Underground Thermal Energy Storage | ||||
| Effective Thermal Conductivity of the Insulation of High Temperature Underground Thermal Stores during Operation, | Fabian Ochs | 13 | ||
| PE-X Borehole heat Exchangers for High Temperature UTES Applications | William Johansen, | 17 | ||
| The Role of Thermal Energy Storage Systems in sustainable Development | Ibrahim Dincer | 88 | ||
| PREHEAT: policy reinforcement for heat storage technologies in Europe | Wim van Helden | 96 | ||
| Session 6B - Solar Applications | ||||
| Monitoring results and operational experiences for a central solar district heating system with Borehole Thermal Energy Store in Neckarsulm (Germany) |
Janet Nussbicker | 105 | ||
| Solar District Heating and Seasonal Storage in Attenkirchen | Manfred Reuss | 106 | ||
| Experimental Investigation on a Combined Sensible and Latent Heat Storage Unit Integrated with Solar Water Heating System | R Velraj | 107 | ||
| First Large-Scale Solar Seasonal BTES in Canada | W.P. Wong | 108 | ||
| THURSDAY June 1st | ||||
| 8:30 -10:10 — Session 7A - Underground Thermal Energy Storage- Borehole Performance | ||||
| Experiment and Numerical Analysis of the DiscontinuousOperation for Ground Heat Exchangers | Withdrawn | 19 | ||
| Developing Work onGround Heat Exchangers | Peter Platell | 23 | ||
| Study on GHP System with a Vertical Earth Heat Exchanger: Development and Validation of Numerical Models for Geo Exchangers | G. Yoon | 46 | ||
| Thermal Response Test - Power Injection dependance |
Anna-Maria Gustafsson |
124 | ||
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| Session 7B - TES sytems | ||||
| Thermal Wind Solar power plant as a solution of the energy security supply problem on islands | Ruy Spencer | 5 | ||
| Study on a Floor Supply Air Conditioning System with Thermal Energy Storage using Granulated PCM | Sayaka Takeda | 26 | ||
| Energy Management of a Chilled Water Plant Using Thermal Storage | Stephane Bilodeau | 141 | ||
| Practical Developments in Sensible Heat, Diurnal Cool Thermal Energy Storage (TES): Large Applications, Low Temps, Energy Efficiency, and Operating plus Capital Savings | John S. Andrepont | 110 | ||
| 10:35 -12:15 — Session 8A - Underground Thermal Energy Storage - Performance | ||||
| Several Examples of UTES in the US | Lynn Stiles | 152 | ||
| Thermal study of a large ground heat exchanger facility in clay soil in a cold weather environment of Northern USA | Gopal Bandyopadhyay | 122 | ||
| Heat transfer experiment in the ground with ground water advection | Takao Katsura | 126 | ||
| OPEN | ||||
| Session 8B - Phase Change Materials | ||||
| PCM-Graphite Composites for High Temperature Thermal Energy Storage | Thomas Bauer | 53 | ||
| Phase Change Slurries as heat transfer and storage fluids for cooling applications | Stefan Gschwander | 55 | ||
| Binary mixtures of fatty acids with sodium acetate trihydrate to be used as PCM | Mushin Mazman | 58 | ||
| OPEN | ||||
| 12:15-2:15 — Session 9A - Lunch and Posters: Underground Thermal Energy Storage | ||||
| Basalt as grouting material for BTES | Yilman Metin Ozer | 22 | ||
| Case study of a BTES and energy piles application in a hospital | Johan Desmedt | 32 | ||
| A design and performance prediction of the ground source heat pump system at Soen campus of Sapporo City University | Katsunori Nagano | 45 | ||
| Evaluation of Underground Energy Storage Performances in Belgium | F. Anciaux | 104 | ||
| UTES Potential for space heating and cooling in Libya | M Grein | 135 | ||
| Enhancement of an Integrated Simulation Tool for Ground Soure Heat Pump Systems | Xiaobing Liu | 140 | ||
| First Thermal Response Tests for BTES applications in Flanders | Hans Hoes | 123 | ||
| Session 9B - Lunch and Posters: Phase Change Materials / Thermochemical Storage/ Solar | ||||
| Snow Melting Performance of Ground Snow Melting Tank | Sayaka Takeda | 3 | ||
| Phase Change Material Based Thermal Storage for Energy Conservation in Building Architecture” | R. Velraj | 29 | ||
| Our Research on Shape-Stabilized PCM in Energy Efficient Buildings | Y Zhang | 31 | ||
| Optimal design of chiller units and cold water storages for district cooling systems. | Thorsten Urbaneck | 51 | ||
| Numerical simulation of the thermal behaviour of an energy storage unit with phase change materials for free-cooling systems" | Pablo Dolado | 68 | ||
| The Economic and Environmental Benefits of Diurnal Cool Storage for Universities of the PJM System | Hector Suarez | 91 | ||
| Adsorption speed and mass transfer zone analysis of water vapour on the solid sorbent materials zeolite and silicagel with the focus on the heat exchanger design. | Paul Gantenbein | 99 | ||
| Use of vertical fins in PCM modules for Domestic Hot Water Tanks | Albert Castell | 113 | ||
| A practical study on application of the commissioning to DHC in operation and maintenance stage | Masashi Momota | 120 | ||
| PCM-Enhanced Cellulose Insulation Thermal Mass in Lightweight Natural Fibers |
Jan Kosny | 136 | ||
| 2:15-3:35 — Session 10A - Underground Thermal Energy Storage- Borehole Performance | ||||
| Development of Numerical Model to Predict Heat Extraction and Injection Rate of Ground Heat Exchanger |
Suckho Hwang | 65 | ||
| Quality Requirements of a Thermal Response Test | Manfred Reuss | 127 | ||
| Geothermal Response Tests Using Controlled Multi-Power Level Heating and Cooling Pulses (MPL-HCP): Quantifying Ground Water Effects on Heat Transport Around a BHX | HJL Witte | 128 | ||
| Borehole Sealing in a Coaxial Heat Exchanger by Bentonite Treatment | Frank Cruickshanks | 133 | ||
| Session 10B - Water and Ice Storage | ||||
| Snow Cooling in Sweden | Kjell Skogsberg | 4 | ||
| Chilled Water System Upgrades: Princeton's Thermal Energy Storage System-Wide Improvements | Ted Borer | 48 | ||
| Methodologies of on-going commissioning for an existing building with VRV ice thermal storage systems |
Ken Sekiyama | 52 | ||
| Distributeed High Capacity Cold Storage in District Cooling Systems | Viktoria Martin | 119 | ||
| 4:20-6:00 — Session 11A - Underground Thermal Energy Storage- SCW and Foundation HX | ||||
| Modeling of Standing Column Wells in Ground Source Heat Pump Systems | Zheng D. O'Neill | 20 | ||
| Study of geothermal seasonal cooling storage system with energy piles | M.M. He | 33 | ||
| The Development of Geothermal Ground Source Heat Pump with Ground Heat Exchanger utilizing Building's Cast-in-place Concrete Pile Foundations of Buildings | Ryozo Ooka | 34 | ||
| Thermal energy storage in office building foundations | Herdis Schnürer | 38 | ||
| Session 11B - Ice Storage and Modeling of Thermal Energy Storageng | ||||
| Economic energetic and exergetic study of a water tank including PCM modules inside | Cristian Sole | 121 | ||
| Determination of the heat storage capacity of PCM and PCM-objects as a function of temperature | Eva Günther | 56 | ||
| Extension of a TRNSYS model for latent heat storage with phase change materials used in solar water tank. | Jacques Bony | 67 | ||
| Validation of a TRNSYS simulation model for PCM energy storages and PCM wall construction elements |
H. Schranzhofer | 70 | ||
| FRIDAY June 2nd | ||||
| 8:30-10:10 — Session 12A - Geothermal Systems | ||||
| Canada’s Largest BTES System: 74,000 m Borehole Field | Brian Beatty | 39 | ||
| A Ground source energy plant for the new assembly for Wales | AJ van Gelder | 42 | ||
| A Very Large Distributed Ground Source Heat Pump Project of Domestic heating: Schoenmakershoek, Etten-Leur (The Netherlands) | HJL Witte | 47 | ||
| Comparative energy performance between a geothermal heat pump system and an air-to-water heat pump system for heating and cooling in typical conditions of the European Mediterranean coast | Mario Zacarés | 66 | ||
| Session 12B - Transportation of Energygy by Utilization of Thermal Energy Storage Technology – Annex 18 | ||||
| Fundamental Study on “Thermal transportation system using ice & water by one-pipe loop system” | Takumo Miyanaga | 0 | ||
| Thermal Energy Transport and Storage with Multi-Functional Fluids: The Effective Thermal Conductivity |
Christel Martin-Drezet |
72 | ||
| Cost-effectiveness of a heat energy distribution system based on mobile storage units: Two case studies | Georg Storch | 73 | ||
| Application of Phase Change Materials and PCM slurries for thermal energy storage | Andreas Heinz | 116 | ||
| 10:35-12:35 — Session 13A - Aquifer Thermal Energy Storage | ||||
| Two-Year Operational Experience in the Storage of Surplus Heat Arising from a Gas and Steam Cogeneration Plant in the Aquifer at the Site of Neubrandenburg (NE Germany) | Frank Kabus | 9 | ||
| Usage of the chalk aquifer in central London for a proposed open cooling system | withdrawn | 11 | ||
| Clogging of recharge wells in porous materials | Nick Buik | 7 | ||
| Soil/Water Pit Heat Store with Direct Charging System | Fabian Ochs | 12 | ||
| OPEN | ||||
| Session 13B - Thermochemical Storage | ||||
| Thermo-Chemical Storage for Solar Space Heating in a Single-Family House |
Dagmar Jaehnig | 100 | ||
| Optimization of thermochemical storage by dealumination of zeolitic storage materials | Jochen Jänchen | 101 | ||
| Thermochemical Storage for Air-Conditioning Using Open Cycle Liquid Desiccant Technology |
Astrid Hublitz | 115 | ||
| Thermal Storage Using the Thermo-Chemical Accumulator | Chris Bales | 111 | ||
| Packed Bed Reactor Demonstration of Magnesium Oxide/Water Chemical Heat Pump | Yukitaka Kato | 117 | ||
| 2:35-3:55 — Session 14A - Underground Thermal Energy Storage | ||||
| Feasibilty study of snow melting system using ground thermal energy in Japan | Katsunori Nagano | 2 | ||
| New Steps in Seasonal Thermal Energy Storage in Germany | Dirk Mangold | 103 | ||
| Using Solar Energy to Maximize the Efficency of Geothermal Heat Pumps | William Fitch | 98 | ||
| Ground-source heating and cooling - A significant contribute to CO2 reduction in Sweden | Olof Andersson | 153 | ||
| Session 14B - Phase Change Materials | ||||
| Microencapsulated PCM for Buildings Application | C. Castellon | 24 | ||
| Energy Efficient Thermal Energy Storage for DX Air Conditioning | Brian Parsonnet. | 50 | ||
| Thermal Mass Building Solutions | Raymond Johnson | 142 | ||
| Latent Heat Storage for process heat application | Jochen Buschle | 112 | ||
| 4:20-6:00 — Session 15A - Underground Thermal Energy Storage- General | ||||
| Development of a design and performance prediction tool for the ground source heat pump system | Takao Katsura | 44 | ||
| CFD-Based Characterization and Design of Hot Water Seasonal Heat Stores | Varghese Panthalookaran | 64 | ||
| Thermal Response Teest While Drilling | Bo Nordell | 155 | ||
| OPEN | ||||
| Session 15B - Phase Change Materials | ||||
| Heat Transfer modeling within graphite/PCM compounds for high temperature storage | Vincent Morrison | 138 | ||
| Microencapsulated Phase Change Materials as a cold storage | Peter Schossig | 59 | ||
| OPEN | ||||
| OPEN | ||||
| © 2013 Richard Stockton College The Richard Stockton College of NJ, 101 Vera King Farris Drive Galloway, NJ 08205-9441 609-652-1776 |
