Technical PROGRAM

Time GMT Presentations Abstract No.
SESSION 1: Carbon and Additives to Lead-Acid Batteries
Moderator: Plamen Nikolov
12:00 Welcome to delegates
G.Papazov, Chairman of LABAT’2021
Welcoming addresses
12:15 MOLECULAR REBAR® enhances the corrosion layer of lead-acid battery positive plates to improve cycling in corrosion tests
P.Everill,
S.Swogger, N.Sugumaran, Black Diamond Structures, LLC, USA
1
High performance carbons for advanced lead-acid batteries
P.Garcia Perez,
YF.Mornaghini, D.Cericola, Imerys Graphite & Carbon, Switzerland
2
Nanostructured lead-acid negative electrode with reduced graphene oxide
M.Rossini,
F.Ganci, B.Patella, A.Aiello, M.G.Insigna,L.Oloveri, R.Inguanta, University of Palermo, Italy
3
Influence of graphene layer variation on lead-acid negative plate performance
A.Assuncao,
Baterias Pioneiro,Technological Institute of Aeronautics, Brazil
E.Goncalvez, Technological Institute of Aeronautics, Brazil
5
12:20 Q&A, live
12:45 The effect of lignosulonate and/or carbon black on the electrochemical reaction on Pb flat electrode
N.Hirai,
R.Minami, National Institute of Technology, Japan
6
In-situ measurement of lead electrodes combining cycling voltammetry and amplitude modulation atomic force microscopy: Growth of lead sulfate crystals
Y.Imamura,
T.Akatsu, D.Katsube, M.Kimura, Nagaoka University of Technology, Japan
A.Kogure, Shimadzu Techno-Research, Inc., Japan
N.Hirai, National Institute of Technology, Japan
7
The interactions between sodium lignosulfonate and carbon of the lead acid battery
T.Ban,
J.Cheng, Shandong Jjinkeli Power Sources Technology Co., ltd. China (Presenter: M.Chen)
8
UniqueConductive compounds as positive active material enhancers
M.Garcia,
J.Valenciano, F.Trinidad, H.Fricke, Exide Technologies, Spain
10
Unique gold nanoparticles overcome crystal growth impedimetric effects of PCL1 in lead acid batteries
W.Niedermeyer,
G.Mayer, EVOQ Energy, UK
11
13:00 Q&A, live
13:30 Break
SESSION 2: Carbon and Additives to Lead-Acid Batteries
Moderator: Plamen Nikolov
14:00 Sponsor’s presentations
14:05 Impact of carbon additives on current and next generation lead batteries – market and technology trends
P.Atanassova,
Cabot Corp., USA, PLENARY Lecture
12
14:30 Panel discussion, live
15:25 Conclusions, live
Time GMT Presentations Abstract No.
SESSION 3: Lead-Acid Battery Technology
Moderator: Boris Shirov
12:00 Particle size and surface shape of active materials in lead-acid batteries: impact from free surface energy
E.Meissner,
Plante Medalist 2014, Battery Specialist, Germany
13
Crystals and active masses in lead batteries
V.Naidenov,
IEES-BAS, Bulgaria
14
Development of technologies for automotive lead-acid batteries
J.Furukawa,
Plante Medalist 2017, Furukawa Battery Co., Ltd., Japan
15
Examination of the effects of surfactants on crystal growth and curing of the positive active material
M.Robotti,
S.Barnes, Hammond Group Inc., UK
T.Wojcinski, E.Gao, M.Sherrick, S.Luken, M.Ho, Hammond Group Inc., USA
16
Lead battery positive active mass structural changes during PSoC operation and electrolyte additives improving battery cycling endurance in automotive applications
P.Nikolov,
M.Matrakova, A.Aleksandrova, IEES-BAS, Bulgaria
17
12:15 Q&A, live
12:45 State-of-art in formation and filling process for VRLA batteries in GEL technology
KD.Merz,
Abertax Technologies, Malta
18
News and optimization on formation with acid recirculation technology
Ch.Papmahl,
Inbatec, Germany (Presents: T.Woeffler)
19
Lead acid batteries based on chemically prepared (basic) lead sulphate
L.Lei,
J.Yang, F.Yang, Southeast University, China
20
Advancing Dynamic Charge Acceptance by using functionalized pasting paper for the negative electrodes
S.Kumar,
J.Wertz, N.Clement, Hollingsworth & Vose, USA
21
Challenges in the development of high-performance long life lead acid batteries
G.Langer,
B.Riegel, E.Cattaneo, Hoppecke Batteries, Germany
22
Effect of curing temperature on performance of PAM using 4BS crystal
A.Watanabe,
H.Hagihara, T.Mangahara, J.Furukawa, Furukawa Battery Co., Ltd., Japan
23
13:00 Q&A, live
13:30 Break
SESSION 4
14:00 Gaston Plante Medal ceremony
15:00 Alpha/Beta Society ceremony
Time GMT Presentations Abstract No.
SESSION 5: Lead-acid Battery Technology
Moderator:Plamen Nikolov
12:00 Optimized battery formation with Crystal Control Technology of WaveTech
B.Shirov,
V.Naidenov, Y.Milusheva, IEES-BAS, Bulgaria
B.Monahov, D.Valand, WaveTech GmbH, Germany
24
Determining pickling reaction rate constants in bipolar VRLA batteries
Sh.Bruno,
R.Shick, Sh.Adkins, Ed Shaffer II, Advanced Battery Concepts LLC., USA
25
Influence of phosphate species on the operation of titanium-supported lead dioxide electrodes
A.Kirchev,
L.Serra,INES, France
26
HeimBMS: VRLA battery state estimation and balancing in off-grid battery systems
M.Franke,
J.Kowal, Technical University Berlin, Germany
27
Improved plate performance of automotive batteries using tetrabasic seeding material – impact of porosity and electrode structure on electrical performance and cycle life
R.Bussar,
H.Ramianpour, I.Klein, M.Kirchgessner, PENOX GmbH, Germany
28
Red lead for lead-acid batteries, effects of different product characteristics
I.Klein,
R.Bussar, M.Kirchgessner, PENOX GmbH, Germany
29
12:15 Q&A, live
12:45 Effect of residual elements in lead-acid batteries
A.F.Romero,
P.Ocón, Madrid University, Spain
J.Valenciano, Exide Technologies, Spain
H.Fricke, Exide Technologies, Germany
30
Techniques to promote oxidation resistance in polyethylene battery separators
N.Madella,
KMicroporous, GmbH, Austria (Presenter: S.Choi)
31
Journey of the molecule: from the waste to paste. A hydro¬metallurgical process for the recycling of spent battery paste
A.Fox,
Ever Resource Ltd., UK
32
New innovative route for the desulphurization of lead paste
G.Fusillo,
R.Iannelli, F.Scura, G.La Sala, STC S.r.l., Italy (Presenter S.Urgese)
33
Lead-Carbon battery negative electrodes: mechanism and materials
W.Zhang,
X.Qiu, Guangdong University of Technology, China
J.Yin, H.N.Alshareef, King Abdullah University of Science and Technology (KAUST), Saudi Arabia
H.B.Lin, Jilin University, China
35
13:00 Q&A, live
13:30 Break
SESSION 6: Lead-Acid Battery Technology
Moderator: Plamen Nikolov
14:00 Sponsor’s presentations
14:05 Challenges for lead batteries and ways for them to continue being the most used electrochemical power source
B.Monahov,
Plante Medalist 2014, Wavetech GmbH, Germany,
PLENARY lecture
36
14:30 Panel discussion, live
15:25 Conslusions, live
Time GMT Presentations Abstract No.
SESSION 7: Charge Acceptance
Moderator:Boris Monahov
12:00 Charge acceptance issues when a VRLA/AGM cell is operated with the IEC 61427-2 clause 6.2 and Sandia PNNL 5.3.2 profiles simulating frequency-regulation duty in power grids
H.Giess,
Consultant, France P.Ding, Narada Power Source Co, China
37
Charge acceptance vs Water loss: contradictory effects on high temperature environments
Fr.Trinidad,
PhD Electrochemistry, Spain
38
Improving Dynamic Charge Acceptance for automotive 12V batteries: Motivation – Problem Definition – Status - Questions
E.Karden,
Ford Motor Company, Aachen, Germany
39
High DCA formulated blends for advanced lead batteries
Y.H.Kao,
Cabot Corp., USA
40
Expanders for flooded and new EFB batteries for Start/Stop and HEV applications
M.Fernandez,
L.Puckett, C.Barreneche, APG (Atomized Products Group), USA
41
A simple charge acceptance theory for battery plates. Industrial and pilot plant lead-acid battery plates
C.V.D’Alkaine,
G.L.Grespan, A.C.L Pitoli, H.R de Freitas, Federal University of Sao Carlos, Brazil
42
12:15 Q&A, live
12:45 Lead-tin-graphene composite with excellent corrosion-electrochemical and mechanical properties
L.Yolshina,
V.Yolshina, LLC Graphene composite Russia M.Zhou, X.Yang, X.Liu, iu, Y.Wu, B.Wang, X.Zhang, Chaowei Co. Ltd, China
43
Electrochemical impedance spectroscopy on test cells
S.Bauknecht,
J.Kowal, Technical University Berlin, Germany
44
Ultrasonic interrogation studies of AGM-VRLA cells
N.Guillet,
V.Gau, A.Kirchev, CEA, France
45
Numerical simulation of the ultra-battery during high-rate partial state of charge
V.Esfahanian,
N.Aghamirzaie, A.Jafari, M.T.Dalakeh, University of Tehran, Iran
47
Battery Gas Venting – an underestimated impact on battery water loss
I.Koch,
FRÖTEK-Kunststofftechnik GmbH, Germany
48
13:00 Q&A, live
13:30 Break
SESSION 8: Charge Acceptance
ModeratorBoris Monahov
14:00 Sponsor’s presentations
14:05 Lead-acid batteries in Partial-State-of-Charge operation: A Challenge for kinetics of battery recharge
E.Meissner,
Plante Medalist 2014, Battery Specialist, Germany, PLENARY lecture
49
14:30 Panel discussion, live
15:20 Closing the conference, live
Time GMT Poster Title Abstract No.
Mathematical modelling of changes in the electrochemical parameters of lead-acid cells under various conditions and operation modes
A.Aleshkin, Y.Bubnov,
V.Ruzhnikov,
AC Buster Ltd.,
Russia V.Yagnyatinsky, NII STA JSC, Russia
46
The relationship of the structural and electrochemical characteristics of negative electrodes with the addition of nanostructured carbon for lead-acid batteries
T.S.Khramkova,
S.D Gritsenko,
V.O.Danilova, M.M.Burashnikova, Saratov State University, Russia
S.A.Zhdanok, Advanced Research & Technology LLC, Belarus
50
Impedance of charged negative electrodes of lead-acid batteries with the addition of nanostructured carbon
S.D.Gritsenko,
T.S.Khramkova, M.M.Burashnikova, I.A.Kazariniv, Saratov State University, Russia
S.A.Zhdanok, Advanced Research & Technology LLC, Belarus
51
Application of rice husks as green carbon material in lead-acid battery negative electrodes
A.Aleksandrova,
M.Matrakova, P.Nikolov, IEES-BAS, Bulgaria
53
Influence of additives in the active materials of lead batteries on the performance of the positive plates
M.Matrakova,
A.Aleksandrova, P.Nikolov, IEES-BAS, Bulgaria
54
Physicochemical characterization of the effect of the additive BB on the active masses of lead-acid batteries
D.Pavlov, V.Naidenov,
Y.Milusheva,
S.Vassilev, IEES-BAS, Bulgaria
T.Shibahara, M.Tozuka, Hitachi Chemical Co., Ltd., Japan
55
Electrochemical measurements of single and coupled lead-graphite felt electrodes in sulfuric acid solution
A.Ilginis,
E.Griškonis, Kaunas University of Technology, Lithuania
56
Electrochemical evaluation of various commercial expanders for lead-acid battery application
A.Hosseini,
Islamic Azad University of Quchan, Iran
M.Kalani, University of Birjand, Iran
A.Kosari, Ferdowsi University of Mashhad, Iran
57
Optimization of grid configuration by investigating its effect on positive plate of lead-acid batteries via numerical modeling
A.Hosseini,
Islamic Azad University of Quchan, Iran
M.Azimi, D.Nakhaie, Ferdowsi University of Mashhad, Iran
H.Hashemi, Islamic Azad University of Mashhad, Iran
M.Kalani, University of Birjand, Iran
58
Evaluation of new technologies and possibilities for the future of the lead-acid battery using Technology Readiness Level (TRL) and Manufacturing Readiness Level (MRL) methodologies
A.Assuncao,
Baterias Pioneiro,Technological Institute of Aeronautics, Brazil
E.Goncalvez, M.Gandara, Technological Institute of Aeronautics, Brazil
Th.Gaino, Federal University of Pernambuco, Brazil
59
Formation of corrosion layers in bipolar lead acid batteries and their implications on power performance
E.Hinojosa
C.Mui,
Gridtential Energy, USA
60
Modern formation equipment for lead acid batteries
Y.Kulkarni,
KraftPowercon, India
61
Influence of electric current parameters on resistance of inorganic water solutions
R.H.Sharipov,U.A.Balgimbayeva, B.T.Utelbayev,
E.N.Suleimenov,
Kazakh-BritishTechnical University, Republic of Kazakhstan
62
Charge acceptance improvement by optimizing negative plate formation
A.Uctepe,
T.Oztutan, H.Gokdemir, E.Erdem, Z.Kayali, M.Ersoz, M.Mazman, Multu Aku ve Malz.San.,Turkey
63
Carbon xerogel as electrode material for energy storage applications
B.Mladenova,
S.Veleva, T. Stankulov, M.Matrakova, A.Aleksanrova, B. Karamanova, A.Stoyanova, IEES, BAS, Bulgaria
A.Arenillas, Instituto de Ciencia y Tecnología del Carbono, Spain
B.Tsintsarski, Institute of Organic Chemistry with Centre of Phytochemistry, BAS, Bulgaria
64
Multi-layer separators based on absorbent glass matrix and polymer membrane for sealed lead-acid batteries
A.A.Izbasarova,
M.M.Burashnikova, Saratov State University, Russia
65
Composite electrode with enhanced electrochemical performances
K.Banov, IEES-BAS & University of Chemical Technology and Metallurgy, Bulgaria
B.Banov,
IEES-BAS, Bulgaria
66
Active electrode materials obtained from industrial scraps
K.Banov,
IEES-BAS & University of Chemical Technology and Metallurgy, Bulgaria B.Banov, IEES-BAS, Bulgaria
67
Investigation of Pb3O4 as a negative active material in aqueous lithium-ion battery
T.Petkov,
S.Stankov, I.Popov, A.Momchilov, IEES-BAS, Bulgaria
68