| 1 - 1 |
Proceedings of the Fifth European Lead Battery Conference -Barcelona, Spain, 2-4 October, 1996 - Preface
Mayer MG |
| 3 - 6 |
The European lead/acid industry and its future in the world market
daSilva PS |
| 7 - 14 |
Innovative valve-regulated battery designs rekindle excitement in lead/acid battery technology
Pierson JR, Zagrodnik JP, Johnson RT |
| 15 - 26 |
A new valve-regulated lead/acid automotive battery for use in original equipment and supply to the replacement market
Fouache S, Douady JP, Fossati G, Pascon C |
| 27 - 32 |
Benefits of controlling plate-group expansion: opening the door to advanced lead/acid batteries
Hollenkamp AF, Newnham RH |
| 33 - 41 |
Performance and use of composite-substrate-based bipolar lead/acid batteries for pulsed-power applications
Saakes M, Schellevis D, vanTrier D, Wollersheim M |
| 43 - 48 |
Effect of antimony on premature capacity loss of lead/acid batteries
Kosai M, Yasukawa S, Osumi S, Tsubota M |
| 49 - 59 |
Investigation of thermal phenomena in VRLA/AGM stationary lead/acid batteries with a thermal video imaging system
Giess H |
| 61 - 67 |
The tin effect in lead-calcium alloys
Bui N, Mattesco P, Simon P, Steinmetz J, Rocca E |
| 69 - 84 |
Dynamic modelling of lead/acid batteries using impedance spectroscopy for parameter identification
Mauracher P, Karden E |
| 85 - 91 |
Analysis of positive-plate resistance during cycling and the effect of compression
Calabek M, Micka K, Baca P, Krivak P, Smarda V |
| 93 - 103 |
The PbO2 agglomerate-of-spheres: investigation of four grid materials
Bashtavelova E, Winsel A |
| 105 - 109 |
Improving active-material utilization
Bagshaw NE |
| 111 - 113 |
Influence of electrically conductive polymers on the operating parameters of lead/acid batteries
Dmitrenko VE, Lubentsov BZ, Yevdokimenko SG, Lisyansky II, Soldatenko VA |
| 115 - 119 |
Characteristics of a high-performance lead/acid battery for electric vehicles - an ALABC view
Moseley PT |
| 121 - 123 |
Field experience with maintenance-free battery designs that incorporate thin tubular positives during electric-vehicle use
Merz KD |
| 125 - 133 |
Charging strategies for valve-regulated lead/acid batteries in electric-vehicle applications
Fernandez M, Trinidad F |
| 135 - 150 |
Phosphoric acid as an electrolyte additive for lead/acid batteries in electric-vehicle applications
Meissner E |
| 151 - 155 |
Advancing electric-vehicle development with pure-lead-tin battery technology
OBrien WA, Stickel RB, May GJ |
| 157 - 161 |
Improvement of intelligent battery controller: state-of-charge indicator and associated functions
Alzieu J, Smimite H, Glaize C |
| 163 - 172 |
Large lead/acid batteries for frequency regulation, load levelling and solar power applications
Wagner R |
| 173 - 177 |
Voltage quality and reliability from electrical energy-storage systems
RateringSchnitzler B, Harke R, Schroeder M, Stephanblome T, Kriegler U |
| 179 - 186 |
Design and commissioning of a valve-regulated lead/acid battery energy-storage system for backing up critical environmental loads
Hunt GW |
| 187 - 191 |
Lead/acid batteries in systems to improve power quality
Taylor P, Butler P, Nerbun W |
| 193 - 200 |
A strategy for low-cost utility connection of battery energy storage systems
Wall S, McShane D |
| 201 - 212 |
The influence of different operating conditions, especially over-discharge, on the lifetime and performance of lead/acid batteries for photovoltaic systems
Garche J, Jossen A, Doring H |
| 213 - 218 |
Influences and trends in lead/acid battery demand, lead supply and prices
Hawkes N |
| 219 - 223 |
Lead battery markets and recycling in Mexico and South America
Valdez H |
| 225 - 236 |
Analysis of lead/acid battery life cycle factors: their impact on society and the lead industry
Robertson JGS, Wood JR, Ralph B, Fenn R |
| 237 - 242 |
Impact of Basel convention on secondary-lead industry in economies in transition
Subramanian VR |
| 243 - 249 |
Opportunities for cost reduction and improved environmental impact in the lead and lead/acid battery industries
Lewis N |
| 251 - 255 |
A review of soft-lead specifications in the light of the requirements of valve-regulated lead/acid batteries
Rice DM, Manders JE |
| 257 - 265 |
Improved lead alloys for lead/acid positive grids in electric-vehicle applications
Albert L, Chabrol A, Torcheux L, Steyer PH, Hilger JP |
| 267 - 278 |
The metallurgy and performance of cast and rolled lead alloys for battery grids
Prengaman RD |
| 279 - 281 |
Lead-calcium alloy development: quality improvement
Caillerie JL, Albert L |
| 283 - 289 |
Continuous casting of lead-antimony alloys
Cattaneo E, Stumpf H, Tillmann HG, Sassmannshausen G |
| 291 - 297 |
Impact of separator design on the performance of gelled-electrolyte valve-regulated lead/acid batteries
Ferreira AL, Lingscheidt HA |
| 299 - 305 |
Challenges for automotive battery separator development
Bohnstedt W |
| 307 - 313 |
Absorptive glass-mat separators for valve-regulated lead/acid batteries - thoughts on compression
Zguris GC |
