Abstr. nr | Last name | First name | Country | Title |
3 |
Laforte |
Caroline |
Canada |
Extended Evaluation of icephobic coating regarding their field of application |
4 |
Godard |
Bertrand |
Belgium |
A vibration-based icing monitoring of overhead lines |
5 |
Makkonen |
Lasse |
Finland |
Statistical evaluation of extreme ice loads |
6 |
Troppauer |
Wolfgang |
Austria |
Advanced monitoring of icing and prevention against icing on overhead power lines |
9 |
Gutman |
Igor |
Sweden |
Technologies to reduce and remove ice from conductors and shield wires: applicability for Norwegian conditions |
12 |
Lacavalla |
Matteo |
Italy |
A revision of wet snow load map for the Italian power lines with a new high resolution reanalysis dataset |
13 |
Abdelaal |
Ahmed |
USA |
Experimental study of precipitation icing on an architectural polycarbonate open mesh |
14 |
Lutz |
Julia |
Norway |
Future projections of icing on power lines over Norway |
15 |
Dobler |
Andreas |
Norway |
Modelling icing on power lines at the Ålvikfjellet test span (Norway) using high-resolution climate model data |
16 |
Szilder |
Krzysztof |
Canada |
Experimental Validation of Numerical Ice Accretion Prediction on Stay Cables due to Freezing Rain |
17 |
Faggian |
Paola |
Italy |
Research activities to cope with wet snow impacts on overhead power lines in future climate over Italy |
18 |
Marcacci |
Pietro |
Italy |
Monitoring, measurements and mitigation for wet snow accretion on overhead conductors |
21 |
Szabó |
Dávid |
Hungary |
DLR based ice prevention method |
22 |
Rácz |
Levente |
Hungary |
Integration of Monte Carlo methods into ice prevention model |
23 |
Jin |
Jia Yi |
Norway |
Ice Accretion on Wind Turbine Blade – An Experimental Study of S819 Airfoil |
24 |
Minullin |
Renat Gizatullovich |
Russia |
Prevention of ice accidents on transmission lines using the location method |
25 |
Titov |
Dmitry Evgenevich |
Russia |
Experimental study of resistance of aerial bundled cables with different hydrophobic coatings to hoar frost and soft rime |
26 |
Kasimov |
Vasil Amirovich |
Russia |
Location sensing equipment for detecting ice and damage on transmission lines |
27 |
Minullin |
Renat Gizatullovich |
Russia |
Modeling the influence of glaze-ice and rime deposits on the propagation of location signals through transmission lines |
28 |
Jones |
Kathleen Ferris |
USA |
How was the MRI model applied? |
30 |
Meng |
Yiqing |
Hungary |
Proposed active control methodologies for aeolian vibration of suspended cables under icing conditions |
31 |
Balordi |
Marcella |
Italy |
Effect of micro-roughness of Aluminum alloy surface on anti-ice and durability properties of hierarchical structured coatings |
32 |
Chemelli |
Cristina |
Italy |
A comparison of anti-ice and anti-snow coatings performances: laboratory and field testing |
33 |
Santucci de Magistris |
Giorgio |
Italy |
Role of nano-structured bohemite on anti-ice properties of super-hydrophobic hierarchical aluminum surfaces |
34 |
Matsumiya |
Hisato |
Japan |
Field observation of wet-snow accretion and galloping on a single-conductor transmission line |
35 |
Iversen |
Emilie Claussen |
Norway |
Improved NWP prediction of wet snow |
36 |
Kollar |
Laszlo E. |
Hungary |
Consideration of Icing on the Design of Wind Turbine Blade Sections |
42 |
Thompson |
Gregory |
USA |
High Resolution Numerical Weather Model Forecasts of Icing at the Ground and in the Air |
47 |
Martinsen |
Morten |
Norway |
The relationship between static friction and shear strength of coating/ice interfaces |
49 |
Reich |
Klemens |
Austria |
Ice Monitoring on OHL conductors at Austrian Power Grid – Status and Outlook |
50 |
Chen |
Min |
China |
A Dendritic Growth Model for Icing of Supercooled Water |
51 |
Kwon |
Hyeokbin |
South-Korea |
A Study on the Relationship between the Weather Condition and the Window Glass Damage by Accreted Snow under High-speed Trains |
52 |
Niemelä-Anttonen |
Henna |
Finland |
Icephobic performance of different surface designs |
53 |
Kang |
Yu-Eop |
South-Korea |
Experimental Investigation of Bead Growth and Dispersion in Low Speed Icing Condition |
54 |
Rehfeld |
Nadine |
Germany |
Durability of icephobic materials – Assessment and correlation studies for improved development processes |
55 |
Sokolov |
Pavlo |
Norway |
Modeling of Dry Ice Accretion on Cylinders – A Case Study of Present Analytical State |
56 |
Min |
Seungin |
South-Korea |
Application of the transition model with respect to the local roughness on RANS based aircraft icing code |
57 |
Bredesen |
Rolv Erlend |
Norway |
IceRisk2.0: Uncertainty quantification and Strength of Knowledge descriptions of Ice Fall and Ice Throw risk assessments |
58 |
Bredesen |
Rolv Erlend |
Norway |
Literature study on icing of bridge-cables and towers relevant for the fjord-crossing of Bjørnafjorden, E39, Norway |
59 |
Engdahl |
Bjørg Jenny Kokkvoll |
Norway |
Improved predictions of atmospheric icing at MET-Norway |
60 |
Carlini |
Claudio |
Italy |
Resilience Assessment and Enhancement in Electric Distribution Networks |
61 |
Ingvaldsen |
Kristian |
Norway |
Validation of modelled in-cloud ice accretion on overhead power lines at exposed high-altitude sites in Norway |
62 |
Son |
Chankyu Son |
Denmark |
Development of 3D icing simulation code for wind turbines |
63 |
Swart |
Daniel |
Norway |
Application of Risk Management and Barrier Management for Structures in Cold Climate |
64 |
Molinder |
Jennie |
Sweden |
A method for probabilistic icing modelling |
65 |
Rønneberg |
Sigrid |
Norway |
Standardizing the testing of low ice adhesion surfaces |
66 |
Nygaard |
Bjørn Egil |
Norway |
Development of a 50 year return value ice load map for Sweden |
68 |
Nygaard |
Bjørn Egil |
Norway |
Preparing a European standard for ice loads on structures |
69 |
Chereshnyuk |
Sergey |
Russia |
GIS technologies in icing on power lines analyses |
70 |
Moser |
Michael J. |
Austria |
A novel approach of icing detection on railway infrastructure by means of surface sensors |
71 |
Ge |
Junfeng |
China |
Winter Road Surface Status Recognition Using Deep Semantic Segmentation Network |
72 |
Ozeki |
Toshihiro |
Japan |
An Investigation of Oxygen Isotope Fractionation during Sea Spray Icing and Observation of Snow Mass Fraction of Spray Ice |
77 |
Thorkildson |
Ronald Milfred |
USA |
Rime ice occurrences from radiation fog that impact overhead transmission lines in central Washington State. |
81 |
Kaikkonen |
Ville Antero |
Finland |
Droplet size distribution and liquid water content monitoring in icing conditions with the ICEMET sensor |
82 |
Jarrett |
Philip Lionel |
Canada |
Update of the Reference Ice Thickness Amounts due to Freezing Rain for Canadian Codes and Standards |
84 |
Šabata |
Jaroslav |
Czech Republic |
Actual state of the Automated Icing Monitoring System on the territory of the Czech and Slovak Republic |
89 |
Lou |
Wenjuan |
China |
Remote icing monitoring and prediction model for icing accretion on power lines |
93 |
Elíasson |
Árni Jón |
Iceland |
Shedding of in-cloud icing - Analysis of field measurements |
94 |
Kamata |
Yasushi |
Japan |
Estimation Method of Snow Accretion Amount on Train Bogies |
96 |
Schremb |
Markus |
Germany |
Hydrodynamics and Thermodynamics of Ice Accretion through Impact of Supercooled Large Droplets: Experiments and Modeling |
97 |
Pandey |
Mahesh |
Canada |
An Investigation of Non-Stationary Nature of Ice Accretion Data |
99 |
Šabata |
Jaroslav |
Czech Republic |
A new method of direct icing measurement on HV electrical lines |
100 |
Elíasson |
Árni Jón |
Iceland |
Registration of observed icing on overhead lines in Iceland |
104 |
Sveinbjörnsson |
Einar |
Iceland |
Vesturlína, Iceland – ice measurements for 60 years |