The Experts below are selected from a list of 327 Experts worldwide ranked by ideXlab platform
T Xu - One of the best experts on this subject based on the ideXlab platform.
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Desiccant coating with ion exchange resin on Aluminum Foil surface of finned tube heat exchanger
Huagong Xuebao CIESC Journal, 2014Co-Authors: Yutang Fang, Yifeng Cao, Xuenong Gao, T XuAbstract:Modified ion exchange resin (IER) was obtained by impregnating IER into the saturated LiCl or MgCl 2 solution, filtering, washing and drying sequentially. The desiccant coating was produced by means of electrostatic spraying and thermocuring the mixture of the pulverized modified IER and powder coating on Aluminum Foil surface of finned tube heat exchanger. XRD spectra showed that IER structure had no obvious change after modification. SEM images revealed that the desiccant coating could be uniformly and closely dispersed on the surface of Aluminum Foil and its thickness was about 120 μm. EDS analysis showed the composition and content of the desiccant coating. TG curves indicated that the mass loss of desiccant coating mainly happened in the range of 30-150°C and 400-600°C. The former was associated with IER desorption, while the latter was related to thermal decomposition of IER and power coating. The static and dynamic adsorption curves of the modified desiccant coating indicated that adsorption performance was improved significantly after modification. Hygroscopic repeatability test demonstrated that the desiccant coating still had excellent stability for adsorption and desorption. © All Rights Reserved.
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Desiccant coating on Aluminum Foil surface of finned tube heat exchanger
Kuei Suan Jen Hsueh Pao Journal of the Chinese Ceramic Society, 2012Co-Authors: Yutang Fang, Yifeng Cao, Chunyuan Liu, Xuenong Gao, T XuAbstract:A desiccant coating of finned tube heat exchanger was obtained via electrostatic spraying the mixture of silica gel power and power coating on the Aluminum Foil surface and thermocuring, then impregnating it into LiCl or CaCl 2 saturated solution. The modified desiccant coating was characterized by scanning electron microscopy and energy dispersive X-ray spectroscopy (SEM- EDS), porous medium analysis and thermogravimetry, respectively. The results showed that the desiccant coating could evenly scatter on Aluminum Foil surface, the composition and content of the desiccant coating. The pore structure analysis indicated that the average pore diameter of the desiccant coating slightly increased by impregnation, while its pore volume and specific surface area were slightly decreased. The thermal mass loss of the desiccant coating mainly concentrated in the lower temperature range of 30-200°C and the higher temperature range of 300-600°C. The former mass loss was correlated to silica gel desorption and the latter corresponded to the decomposition of epoxy- polyester coating. According to the result of the static and dynamic adsorption tests, the adsorption performance of modified desiccant coating was higher than that of non-modified desiccant coating.
Giri Venkataramanan - One of the best experts on this subject based on the ideXlab platform.
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GHTC - Aluminum Foil Coils for Human Scale Wind Turbines
2012 IEEE Global Humanitarian Technology Conference, 2012Co-Authors: Pedro Melendez-vega, Giri VenkataramananAbstract:A novel coil design for an axial flux permanent magnet generator to be used in small wind turbines has been realized. While traditional designs comprise enamel copper wire, the novel coil uses Aluminum Foil for it being low cost and readily available. Commercial home video tape is employed to provide insulation between turns, promoting the recycling of video cassettes and enhancing the magnetic properties of the generator. Three study cases were analyzed and tested; their manufacturing process and performance were recorded. The test results are presented in terms of comparison with the original copper design, indicating that Aluminum Foil coils have the potential to enhance the performance of the generator. The design and manufacturing approaches are unveiled so that a fabricator may redesign and build similar coils based on the materials available.
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Aluminum Foil Coils for Human Scale Wind Turbines
2012 IEEE Global Humanitarian Technology Conference, 2012Co-Authors: Pedro Melendez-vega, Giri VenkataramananAbstract:A novel coil design for an axial flux permanent magnet generator to be used in small wind turbines has been realized. While traditional designs comprise enamel copper wire, the novel coil uses Aluminum Foil for it being low cost and readily available. Commercial home video tape is employed to provide insulation between turns, promoting the recycling of video cassettes and enhancing the magnetic properties of the generator. Three study cases were analyzed and tested; their manufacturing process and performance were recorded. The test results are presented in terms of comparison with the original copper design, indicating that Aluminum Foil coils have the potential to enhance the performance of the generator. The design and manufacturing approaches are unveiled so that a fabricator may redesign and build similar coils based on the materials available.
Yingzhan Jiang - One of the best experts on this subject based on the ideXlab platform.
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ICDMA - Study on the Processing Methods of Aluminum Foil Measurement Signals for Ultrasonic Cleaning Parameters
2011 Second International Conference on Digital Manufacturing & Automation, 2011Co-Authors: Baoji Yuan, Yingzhan JiangAbstract:The signals of Aluminum Foil measurement results for Ultrasonic Cleaning device Parameters need accurate test and estimate by effectively signal processing methods. The characteristics of Aluminum Foil measurement methods are analyzed. An area assessment method and corrosion degree of the Aluminum Foil is put forward. The evaluation program was given and the appLication of Aluminum Foil measure methods was studied. It is demonstrated by the experimental study that this measurement method by Aluminum Foil can reaLize the study on the time characteristics of the ultrasonic cleaning machine, selection of the frequency mode of action and study on the temperature characteristics, which provided an effective data support and experimental verification for the performance parameters design of the ultrasonic cleaning machine.
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Study on the Processing Methods of Aluminum Foil Measurement Signals for Ultrasonic Cleaning Parameters
2011 Second International Conference on Digital Manufacturing & Automation, 2011Co-Authors: Baoji Yuan, Yingzhan JiangAbstract:The signals of Aluminum Foil measurement results for Ultrasonic Cleaning device Parameters need accurate test and estimate by effectively signal processing methods. The characteristics of Aluminum Foil measurement methods are analyzed. An area assessment method and corrosion degree of the Aluminum Foil is put forward. The evaluation program was given and the appLication of Aluminum Foil measure methods was studied. It is demonstrated by the experimental study that this measurement method by Aluminum Foil can reaLize the study on the time characteristics of the ultrasonic cleaning machine, selection of the frequency mode of action and study on the temperature characteristics, which provided an effective data support and experimental verification for the performance parameters design of the ultrasonic cleaning machine.
Yutang Fang - One of the best experts on this subject based on the ideXlab platform.
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Desiccant coating with ion exchange resin on Aluminum Foil surface of finned tube heat exchanger
Huagong Xuebao CIESC Journal, 2014Co-Authors: Yutang Fang, Yifeng Cao, Xuenong Gao, T XuAbstract:Modified ion exchange resin (IER) was obtained by impregnating IER into the saturated LiCl or MgCl 2 solution, filtering, washing and drying sequentially. The desiccant coating was produced by means of electrostatic spraying and thermocuring the mixture of the pulverized modified IER and powder coating on Aluminum Foil surface of finned tube heat exchanger. XRD spectra showed that IER structure had no obvious change after modification. SEM images revealed that the desiccant coating could be uniformly and closely dispersed on the surface of Aluminum Foil and its thickness was about 120 μm. EDS analysis showed the composition and content of the desiccant coating. TG curves indicated that the mass loss of desiccant coating mainly happened in the range of 30-150°C and 400-600°C. The former was associated with IER desorption, while the latter was related to thermal decomposition of IER and power coating. The static and dynamic adsorption curves of the modified desiccant coating indicated that adsorption performance was improved significantly after modification. Hygroscopic repeatability test demonstrated that the desiccant coating still had excellent stability for adsorption and desorption. © All Rights Reserved.
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Desiccant coating on Aluminum Foil surface of finned tube heat exchanger
Kuei Suan Jen Hsueh Pao Journal of the Chinese Ceramic Society, 2012Co-Authors: Yutang Fang, Yifeng Cao, Chunyuan Liu, Xuenong Gao, T XuAbstract:A desiccant coating of finned tube heat exchanger was obtained via electrostatic spraying the mixture of silica gel power and power coating on the Aluminum Foil surface and thermocuring, then impregnating it into LiCl or CaCl 2 saturated solution. The modified desiccant coating was characterized by scanning electron microscopy and energy dispersive X-ray spectroscopy (SEM- EDS), porous medium analysis and thermogravimetry, respectively. The results showed that the desiccant coating could evenly scatter on Aluminum Foil surface, the composition and content of the desiccant coating. The pore structure analysis indicated that the average pore diameter of the desiccant coating slightly increased by impregnation, while its pore volume and specific surface area were slightly decreased. The thermal mass loss of the desiccant coating mainly concentrated in the lower temperature range of 30-200°C and the higher temperature range of 300-600°C. The former mass loss was correlated to silica gel desorption and the latter corresponded to the decomposition of epoxy- polyester coating. According to the result of the static and dynamic adsorption tests, the adsorption performance of modified desiccant coating was higher than that of non-modified desiccant coating.
Chan Eon Park - One of the best experts on this subject based on the ideXlab platform.
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low voltage organic transistors on a polymer substrate with an Aluminum Foil gate fabricated by a laminating and electropolishing process
Applied Physics Letters, 2006Co-Authors: Chanwoo Yang, Kwonwoo Shin, Sang Yoon Yang, Hayoung Jeon, Danbi Choi, Dae Sung Chung, Chan Eon ParkAbstract:The authors report flexible and low-voltage pentacene organic field-effect transistors (OFETs) constructed with an Aluminum Foil gate electrode, which was fabricated by the simple and low-cost roll-to-roll lamination process. Electropolishing the surface of laminated Aluminum Foil and spin coating it with an additional thin polymer film resulted in a gate dielectric surface with a root-mean-square roughness of about 0.85nm. These pentacene OFETs with a poly(α-methylstyrene)/anodized Al2O3 dual-layered gate dielectric exhibit a mobility of 0.52cm2∕Vs, an on-off ratio of 105, a subthreshold swing of 317mV/decade, and little hysteresis when operating at −5V.
