Neutroi-tekniketarako egokia den lehenengo berun-azido bateriarendiseinua eta optimizazioa
- Campillo-Robles, Jose Miguel
- Artetxe, Xabier
- Urrutibeaskoa, Idoia
- Soler, Daniel
- Goonetilleke, Damian
- Sharma, Neeraj
- Garbe, Ulf
- Türkyilmaz, Pinar
- Iñaki Alegria (ed. lit.)
- Ainhoa Latatu (ed. lit.)
- Miren Josu Omaetxebarria (ed. lit.)
- Patxi Salaberri (ed. lit.)
Publisher: Udako Euskal Unibertsitatea, UEU = Universidad Vasca de Verano
ISBN: 978-84-8438-627-8, 978-84-8438-632-2
Year of publication: 2017
Volume Title: Ingenieritza eta Arkitektura
Tome: 5
Volume: 5
Pages: 61-66
Congress: Ikergazte. Nazioarteko Ikerketa Euskaraz (2. 2017. Iruñea)
Type: Conference paper
Abstract
Lead-acid batteries have consistently accounted for the largest market share of secondary batteries. However, there is still significant opportunity for improvement of lead-acid battery technology. Typically, lead-acid batteries do not make use of more than 25-35 % of their active materials. To date, there have been few reports of techniques for monitoring of the internal processes which occur during operation of lead-acid batteries. Neutron imaging presents a novel technique for in operando monitoring of lead-acid batteries; however, it requires an appropriately designed leadacid battery. The neutron beam has to pass through the battery without attenuation, carrying information about the inner components. In this work we have designed, optimized and validated a neutron-friendly lead-acid battery, using deuterated electrolyte and a neutron transparent casing.