Abstract: A multi-stationed continuous electro-polishing system includes an electrolysis tank, a driving mechanism, electrode plates and a power supply. The electrolysis tank is filled with electrolyzing liquid. The driving mechanism is placed in the electrolysis tank for driving a metal strip into and out of the electrolysis tank. Each of the electrode plates is placed at an adjustable gap from the metal strip in the electrolysis tank. The power supply includes a positive electrode connected to the metal strip and a negative electrode connected to all of the electrode plates.

Abstract: This invention relates to a diagnostic system for the internal status of a lithium battery. It includes a lithium battery unit, a plurality of sensor units and a control system. The lithium battery unit has a battery shell body and a lithium battery. The lithium battery is installed at the battery shell body. Each sensor unit comprises an electrically conductive wire and a sensor part. The internal part is disposed between the internal surface of the battery shell body and the lithium battery. The electrically conductive wire is connected respectively the sensor part and the control system so it can receive the data measured by the sensor part. The user can know the change inside the lithium battery. Therefore, it has the advantages and functions of real time monitoring, the enhancement of utilization safety, and the extension of product life.

Abstract: A light emitting diode (LED) device having a humidity sensor includes an LED portion, a humidity sensor and an external device. This LED portion has a base, a boning layer, an LED chip, and a sealing portion. The LED ship is adhered on the base by the bonding layer. The sealing portion encloses the LED chip. This humidity sensor has a transmission element. This humidity sensor is to detect humidity condition in the LED portion. The external device is to monitor humidity condition and variation in the LED portion. It can monitor the internal condition in the LED portion and is possible to detect both the temperature and humidity simultaneously.

Abstract: A method for preparing a surface modification coating of metal bipolar plates is disclosed, which comprises the following steps: providing a metal substrate; pre-treating the metal substrate by substrate processing, depositing a Ni-based alloy layer on the metal substrate, or the combination thereof to form an activated layer on the surface of the metal substrate; packing the metal substrate in a powder mixture comprising permeated master metal, an activator, and filler powders; heat-treating the metal substrate in the powder mixture to allow the permeated master metal to diffuse into the activated layer and then to form a surface modification coating. The permeation rate of the permeated master metal can be increased due to high defect concentration of the activated layer. Hence, a corrosion-resistant surface modification coating is prepared at a low temperature, and it can decrease the interface contact resistance between the metal bipolar plates and gas diffusion layers.

Abstract: A micro reactor having micro flow-guiding blocks includes a first gas flow channel, a second gas flow channel and a catalytic converter. There are several flow-guiding portions disposed on the first gas flow channel. Each flow-guiding portion has micro flow-guiding blocks, flow-impact recesses, and catalytic portions. The function of the micro flow-guiding block is to guide a flowing direction of the flow toward the catalytic portion on the flow-impact recess in order to increase a possibility of contacting and chemical reaction with the catalytic portion. So, guiding the flow direction toward the catalytic portion can increase the overall reaction efficiency. More turbulence is generated to obtain a better mixing. Plus, its structure is simple.

Abstract: A composite bipolar plate for a proton exchange membrane fuel cell (PEMFC) is prepared as follows: a) melt compounding a polypropylene resin and graphite powder to form a melt compounding material, the graphite powder content ranging from 50 wt % to 95 wt % based on the total weight of the melt compounding material and the polypropylene resin being a homopolymer of propylene or a random copolymer of propylene and ethylene, butylenes or hexalene, wherein 0.01-15 wt % of polymer-grafted carbon nanotubes by an acyl chlorination-amidization reaction, based on the weight of the polypropylene resin, are added during the compounding; and b) molding the melt compounding material from step a) to form a bipolar plates having a desired shaped at 100-250° C. and 500-4000 psi.

Abstract: A manufacturing method of fuel cell having micro sensors and polymer layers is disclosed. It include the following steps of: (1) depositing first polymer layer step, (2) first lithographic processing step, (3) depositing chromium layer step, (4) depositing gold layer step, (5) removing first photo-resist layer step, (6) depositing second polymer layer step, (7) second lithographic processing step, (8) plasma etching step, (9) removing second photo-resist layer step, and (10) complete step. About this invention, the polymer layers can protect the micro sensors. The micro sensors can be installed at a specific location in the flow channel. The entire manufacturing cost is lowered.

Abstract: A diagnostic system for monitoring internal conditions inside a fuel cell includes a pair of bipolar plates, a gas diffusion layer, a central controller, and three or more sensors. Each bipolar plate contains a fuel gas channel. The central controller includes a computing unit and a display. Each sensor has a resistor portion, a capacitor portion, a common lead, a resistor line, and a capacitor line for detecting a voltage value, a resistance value, and a capacity value. The display shows out physical information detected by these sensors for diagnosing the fuel cell. The physical information includes voltage, resistance, capacity, temperature, humidity, flow velocity, and flow rate. In which, it can detect various physical information inside the fuel cell. It can monitor the internal conditions continuously and directly. Plus, it can prolong the product life of the fuel cell.

Abstract: A composite bipolar plate for a polymer electrolyte membrane membrane fuel cell (PEMFC) is prepared as follows: a) melt compounding a polypropylene resin and graphite powder at 100-250° C. and 30-150 rpm to form a melt compounding material, the graphite powder content ranging from 50 wt % to 95 wt % based on the total weight of the graphite powder and the polypropylene resin, and the polypropylene resin being a homopolymer of propylene or a copolymer of propylene and ethylene, wherein 0.05-20 wt % carbon nanotubes, based on the weight of the polypropylene resin, are added during the melt compounding; and b) molding the melt compounding material from step a) to form a bipolar plate having a desired shaped at 100-250° C. and 500-4000 psi.

Abstract: A reinforced mesh structure containing bipolar plate for a polymer electrolyte membrane fuel cell (PEMFC) is prepared as follows: a) compounding vinyl ester and graphite powder to form bulk molding compound (BMC) material, the graphite powder content ranging from 60 wt % to 95 wt % based on the total weight of the graphite powder and vinyl ester, wherein 0.05-10 wt % reactive carbon nanotubes modified by acyl chlorination-amidization reaction, based on the weight of the vinyl ester resin, are added during the compounding; b) molding the BMC material from step a) with a metallic net being embedded in the molded BMC material to form a bipolar plates having a desired shaped at 80-200° C. and 500-4000 psi.

Abstract: A light emitting diode (LED) device having a humidity sensor includes an LED portion, a humidity sensor and an external device. This LED portion has a base, a boning layer, an LED chip, and a sealing portion. The LED ship is adhered on the base by the bonding layer. The sealing portion encloses the LED chip. This humidity sensor has a transmission element. This humidity sensor is to detect humidity condition in the LED portion. The external device is to monitor humidity condition and variation in the LED portion. It can monitor the internal condition in the LED portion and is possible to detect both the temperature and humidity simultaneously.

Abstract: A micro reactor having micro flow-guiding blocks includes a first gas flow channel, a second gas flow channel and a catalytic converter. There are several flow-guiding portions disposed on the first gas flow channel. Each flow-guiding portion has micro flow-guiding blocks, flow-impact recesses, and catalytic portions. The function of the micro flow-guiding block is to guide a flowing direction of the flow toward the catalytic portion on the flow-impact recess in order to increase a possibility of contacting and chemical reaction with the catalytic portion. So, guiding the flow direction toward the catalytic portion can increase the overall reaction efficiency. More turbulence is generated to obtain a better mixing. Plus, its structure is simple.

Abstract: A fluid reactor having a thin film with two-dimensionally distributed micro-resistor units includes one flow way, separating ribs, a thin film which is thinner than 100 micrometer, and a catalytic layer. There are multiple micro-resistor units, which is thinner than 60 micrometer each, set on the thin film. A bi-directional control unit is disposed to control these multiple micro-resistor units to shift to a desired mode selected from detecting electrical resistance, voltage, current, temperature, flow speed, and/or heat-up functions at different time. It can be applied to different kinds of fuel cells with different flow-way patterns. Its micro-resistor units have bi-directional functions. It can detect flow speed at a desired location in the flow way. It would not influence its original flow field and structure. Plus, it is easy to be installed.

Abstract: A thin-film detecting device includes a plate set and a thin-film detecting portion especially for fuel cell, steam reformer and the like. This plate set has a first plate and a second plate. Each first plate has an inner surface, an outer surface, at least one channel, a gas inlet and a gas outlet. The thin-film detecting portion is disposed between the first plate and the second plate. This thin-film detecting portion is deformable and has at least one sensor. Each sensor has a connecting line extending from the sensor to a controller. About this invention, its structure is simple. It is easy to install. The exchangeability is high. And, it can be disposed on a specific position easily.

Abstract: A manufacturing method of fuel cell having micro sensors and polymer layers is disclosed. It include the following steps of: (1) depositing first polymer layer step, (2) first lithographic processing step, (3) depositing chromium layer step, (4) depositing gold layer step, (5) removing first photo-resist layer step, (6) depositing second polymer layer step, (7) second lithographic processing step, (8) plasma etching step, (9) removing second photo-resist layer step, and (10) complete step. About this invention, the polymer layers can protect the micro sensors. The micro sensors can be installed at a specific location in the flow channel. The entire manufacturing cost is lowered.

Abstract: This invention is to introduce a manufacturing method of fuel cell with integration of catalytic layer and micro sensors, which comprises following steps: manufacturing multi-hole silicon layer step, generating catalytic layer step, forming insulation layer step, integrating micro sensors step, and finalizing step. With the function of gas-diffusion layer in the multi-hole silicon wafer and multiple catalytic grains evenly spread over the inner walls of flow-way holes of the silicon wafer, a great catalytic layer can be formed effectively. Further, micro sensors properly are integrated. This invention's merits include simple structure and capabilities of simultaneously detecting temperature and humidity. Plus, it can heat up internally for a fuel cell.

Abstract: The present invention relates to a combined plate structure for a multi-slice fuel cell, which comprises a conducting substrate and a channel plate. The conducting substrate is in the form of a base, and the channel plate is in the form of a sheet having a channel therein. By assembling the conducting substrate and the channel plate together, a combined plate having a channel therein is accordingly formed such that the channel through the channel plate can be easily produced in a conventional mass manufacturing manner. The channel plate can be made of different materials based on various polarities so as to enhance corrosion resistance and electric conductivity thereof, thus lowering production cost and prolonging the service life of the fuel cell.

Abstract: A combined electrochemical machining and electropolishing micro-machining method includes the steps of (1) preparing step, (2) first-stage processing step, (3) second-stage processing step, and (4) finishing step. The apparatus includes an electrochemical machining solution container, an electropolishing solution container, a metal workpiece connecting with an anode, a mold-plate portion connecting with a cathode. Based on this arrangement, the metal workpiece is immersed in a first working fluid to conduct the electrochemical machining process and then to be immersed in a second working fluid to conduct the electropolishing process. So, the overall micro-machining speed is fast. It can improve the surface roughness significantly. It is suitable for extremely hard metal workpiece.

Abstract: A fuel cell having composite bipolar plates mainly includes a pair of bipolar plates. Each bipolar plate has a first surface and a second surface. Each bipolar plate including a conductive plastic plate, a plastic plate fluid inlet, a plastic plate fluid outlet, and a substantially recessed channel. This metal plate has a first metal surface and a second metal surface. The first metal surface is disposed on the second surface of the bipolar plate. The second metal surface is connected with the second plastic surface. Therefore, it can significantly reduce the manufacturing cost. Its anti-corrosion capability is excellent. And, it can produce fuel cells having complicated bipolar structures.

Abstract: A fuel cell having micro sensors is disclosed. It has a pair of bipolar plates and a catalytic portion. About each bipolar plate, it has an inner surface and an outer surface. There are a fluid inlet, a fluid outlet, a channel, one or more micro sensors and several signal lines disposed on this inner surface. This catalytic portion is disposed between two bipolar plates. So, it can detect the actual internal conditions in the fuel cell. There is no need to install extra micro sensors. And, the fuel cell stability and safety can be enhanced significantly.