{"id":1184,"date":"2016-07-12T18:51:05","date_gmt":"2016-07-12T21:51:05","guid":{"rendered":"https:\/\/www.nachodelatorre.com.ar\/mosconi\/?p=1184"},"modified":"2016-07-12T18:51:05","modified_gmt":"2016-07-12T21:51:05","slug":"pila-de-combustible-basada-en-orina-carga-un-smartphone-con-solo-una-ida-al-toilet","status":"publish","type":"post","link":"https:\/\/www.fie.undef.edu.ar\/ceptm\/?p=1184","title":{"rendered":"Pila de combustible basada en orina carga un smartphone con s\u00f3lo una ida al toilet"},"content":{"rendered":"

Una celda de combustible en miniatura que cuesta menos de 40 $ (argentinos) y puede generar electricidad a partir de una sola visita al ba\u00f1o, ha recargado un smartphone por primera vez. Consumiendo energ\u00eda a partir de orina, Ioannis Ieropoulos y su equipo de cient\u00edficos, en la University of the West of England, en Bristol, UK, han sido capaces de sostener tres horas de llamadas telef\u00f3nicas por cada seis horas de tiempo de carga, con 600ml de orina.<\/p>\n

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\"AA miniature fuel cell that costs less than \u00a32 and can generate electricity from a single visit to the toilet has recharged a smartphone for the first time.<\/p>\n<\/div>\n

Using \u2018pee power\u2019, scientists have been able to provide three hours of phone calls for every six hours of charge time, all from 600ml of urine.<\/p>\n

The microbial fuel cell technology provides enormous potential to enable people to stay connected in areas that are off grid using only urine.<\/p>\n

The world first has been developed at the University of the West of England in Bristol by Professor Ioannis Ieropoulos and his team.<\/p>\n

“We are excited to announce several global firsts,\u201d Prof Ieropoulos said. \u201cThis development was possible by employing a new design of microbial fuel cells that allowed scaling up without power density losses.<\/p>\n

“Although it was demonstrated in the past that a basic mobile phone could be charged by microbial fuel cells, the present study goes beyond this to show how, simply using urine, a microbial fuel cell system successfully charges a modern-day smartphone.”<\/p>\n

Several energy-harvesting systems have been tested and results have demonstrated that the charging circuitry of commercially available phones may consume up to 38 per cent of energy on top of the battery capacity.<\/p>\n

Each of the fuel cells costs between \u00a31 and \u00a32 and works by using natural biological processes of \u2018electric\u2019 bacteria to turn urine into electricity.<\/p>\n

Urine passes through the microbial fuel cell for this reaction to happen, with the bacteria then generating electricity.<\/p>\n

This can be stored or used to directly power electrical devices.<\/p>\n

The fuel cell measures just one inch square in size and uses a carbon catalyst at the cathode which is derived from glucose and ovalbumin, a protein found in egg white.<\/p>\n

This catalyst is a renewable and much cheaper alternative to platinum, which is commonly used in other microbial fuel cells.<\/p>\n

Researchers from the University of Bath, Queen Mary University of London and the Bristol Robotics Laboratory showed off a similar urine powered fuel cell<\/a> in March that was smaller, cheaper and more powerful than previous devices.<\/p>\n