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water electrolyzer provides a simple way to test water quality
water electrolyzer provides a simple way to test water quality


he water electrolyzer is used to test the water purity level,the client can see the condition of drinking warter.
he water electrolyzer is used to test the water purity level,the client can see the condition of drinking warter.  
 
Precipitador por electrólisis a 220V DC (corriente continua)
es un equipo especial para visualizar la cantidad de residuo seco (incluido los minerales) que contiene un vaso de agua.
 
Un equipo de bajo coste útil para muchas demostraciones, o para comprobar el estado del agua
 
Dispone de un fusible que evita que se queme el rectificador de corriente en caso de realizar una electrolisis en un agua que contenga exeso de sales o minerales, como por ejemplo agua de pozos, aguas con gas, etc...
 
Especificaciones:
 
- Conexión de entrada a 220v.
 
- Salida en bornes de precipitacion 220 corriente continua
 
- Nº de bornes para prueba 4 bornes para realizar la prueba en 2 vasos a la vez





Latest revision as of 21:59, 8 March 2016


AguaElectrolizada.jpg

QL Water electrolyzer , CE Certificates Water electrolyzer

water electrolyzer provides a simple way to test water quality

he water electrolyzer is used to test the water purity level,the client can see the condition of drinking warter.

Precipitador por electrólisis a 220V DC (corriente continua) es un equipo especial para visualizar la cantidad de residuo seco (incluido los minerales) que contiene un vaso de agua.

Un equipo de bajo coste útil para muchas demostraciones, o para comprobar el estado del agua

Dispone de un fusible que evita que se queme el rectificador de corriente en caso de realizar una electrolisis en un agua que contenga exeso de sales o minerales, como por ejemplo agua de pozos, aguas con gas, etc...

Especificaciones:

- Conexión de entrada a 220v.

- Salida en bornes de precipitacion 220 corriente continua

- Nº de bornes para prueba 4 bornes para realizar la prueba en 2 vasos a la vez


el primer dia de uso de el dispositivo electrolizador petamos el fusible, se le cambio y puso uno nuevo y trassss de nuevo, lo tragimos a Pech y al abrirlo tachannnnn solo lleva un puente(graez) de diodos que hace la FUNCIÓN DE RETIFICAR LA CORRIENTE ALTERNA de una fase EN CONTINUA, un interruptor una resistencia, un led y cuatro electrodos. al ver que se petaba de nuevo el fusible intuí que el retificador se abría petado y efectivamente, había un corto que lo petaba to ! !

pues nada esperando para comprar otro puente, noi tenemos a mano ninguno de esas caracteristicas...


HH ME OLVIDO DE LO MÁS IMPORTANTE, SEGÚN LA TABLA DE EL DISPOSITIVO, SI EL AGUIA SE TORNA COLOR VERDE, CONTIENE MERCURIO Y ARSÉNICO ,.,.,.,. QUE FUERTE NO ???

antes cuando no habia abierto el dispositivo teníamos ciertas dudas a cerca de la fiabilidad de el mismo, pero sabiendo que simplemente corrige la corriente alterna a continua para hacer el proceso de electrohidrólisis y lisiar moléculas de otras ustancias que habitan el agua, todo me parece más real ,.,.,.,.

ya estoy viendo un posible producto a realizar con la impresora 3d y electrodos

bueno parece que el tema de los electrodos y las membranas no sea tan tribial como lo estaba considerando :

Electrolysis is an electrochemical process in which electrical energy is the driving force of chemical reactions. Substances are decomposed, by passing a current through them. The first observation of this phenomenon was recorded in 1789. Nicholson and Carlisle were the first who developed this technique back in 1800 and by the beginning of the 20th century there were already 400 industrial water electrolysis units in use. As mentioned before, water is decomposed to hydrogen and oxygen, by passing a current through it in the presence of suitable substances, called electrolytes. Electric current causes positively charged hydrogen ions to migrate to the negatively charged cathode, where a reduction takes pl ace in order to form hydrogen atoms. The atoms formed then combine to form gaseous hydrogen molecules (H 2 ). On the other hand, oxygen is formed at the other electrode (the positively charged anode). The stoichiometry of the r eaction is two volumes of hydrogen to one volume of oxygen. The most important part of the construction of electrolysis units is to use adequate electrodes to avoid unwanted reactions, which produce impurities in the hydrogen gas. Another necessary com ponent of such a unit is a separating membrane that allows the passage of ions, or electrons and not oxygen, or hydrogen atoms. This membrane allows the gases to be kept separate in order to avoid the risk of an explosive mixture being formed in the electrolysis unit.

interesante aspecto al que siempre volvemos con los clásicos tópicos

Electrolysis is considered as the ìcleanestî way to produce hydrogen, when the required electricity is derived from renewable energy sources. In countries with a lot of waterfalls, hydroelectricity can be used as the energy source for water electrolysis. Other renewable sources that could be used for supplying electrolysis units are solar, aeolic and geothermal energy. Photoelectrolysis, in which the photovoltaic cells are also electrodes that decompose water to hydrogen and oxygen gas could be used for the production of hydrogen. These tec hnologies could be used in order to store energy as hydrogen, which can be transformed to electricity in fuel cells, when the natural source of energy is not available. The production of hydrogen through electrolysis using renewable energy sources has the smallest impact on the environment.


2. Theory of water electrolysis The electrolysis of water is considered a well-known principle to produce oxygen and hydrogen gas. In Fig.1 a schematic of an electrochemical cell is presented. The core of an electrolysis unit is an electrochemical cell, which is filled with pure water and has two electrodes connected with an external power supply. At a certain voltage, which is called critical voltage, between both electrodes, the electrodes start to produce hydrogen gas at the negatively biased electrode and oxygen gas at the positively biased electrode. The amount of gases produced per unit time is directly related to the current that passes through the electrochemical cell. In water, there is always a certain percentage found as ionic species; H+ and OH -represented by the equilibrium equation:

H2O (l)↔ H+(aq) + OH-(aq)

comparto el link de el articulo entero, tiene algunos datos interesantes y es bastante detallado para ser generado por las empresas mordor que trabajan esas tecnologías a nivel iondustrial

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