[00134596]增新一代直接甲醇燃料电池性能
交易价格:
面议
所属行业:
电气电工
类型:
非专利
技术成熟度:
正在研发
交易方式:
技术转让
联系人:
苏州光华科技促进中心
进入空间
所在地:江苏苏州市
- 服务承诺
- 产权明晰
-
资料保密
对所交付的所有资料进行保密
- 如实描述
技术详细介绍
Enhanced Direct Methanol Fuel Cell Performance
技术名称:增新一代直接甲醇燃料电池性能。
Improved membrane electrode assembly (MEA) in direct methanol fuel cells (DMFC)
技术简介:改进的膜电极组件(MEA)中的直接甲醇燃料电池( DMFC )。
Mitigates methanol crossover through the membrane electrode assembly (MEA) to the extent that like-for-like power density compared to standard MEAs increases by 60% at 70C
应用领域:通过膜电极组件(MEA )的程度减轻甲醇交叉,在在70C的条件下,对等的功率密度比标准的MEAs增加了60%。
Membrane Electrode Assemblies (MEAs) for Direct Methanol Fuel Cells used in portable electronic devices, light vehicles, military applications
合作对象:直接甲醇燃料电池膜电极组件(MEAS )用于便携式电子设备,轻型车辆,军事上的应用。
Simple modification to existing manufacturing processes; increased power output; reduction of fuel required facilitating miniaturisation of DMFC; reduction of MEA cost as thinner membranes are required due to lower methanol permeability
优势:简单修改现有的制造工艺,更高的输出功率,减少小型化DMFC所需燃料,使用更薄的膜,并当降低甲醇渗透,使得MEA成本降低。
Proof of concept programme is underway to investigate optimal operating conditions. Industrial partners are sought for feedback and technology development/trials and as potential licensees. Patent application in progress.
商业化阶段:概念证明研究,寻找的最佳操作条件。正在需找工业合作伙伴和技术开发/试验。专利申请正在进行中。
Enhanced Direct Methanol Fuel Cell Performance
技术名称:增新一代直接甲醇燃料电池性能。
Improved membrane electrode assembly (MEA) in direct methanol fuel cells (DMFC)
技术简介:改进的膜电极组件(MEA)中的直接甲醇燃料电池( DMFC )。
Mitigates methanol crossover through the membrane electrode assembly (MEA) to the extent that like-for-like power density compared to standard MEAs increases by 60% at 70C
应用领域:通过膜电极组件(MEA )的程度减轻甲醇交叉,在在70C的条件下,对等的功率密度比标准的MEAs增加了60%。
Membrane Electrode Assemblies (MEAs) for Direct Methanol Fuel Cells used in portable electronic devices, light vehicles, military applications
合作对象:直接甲醇燃料电池膜电极组件(MEAS )用于便携式电子设备,轻型车辆,军事上的应用。
Simple modification to existing manufacturing processes; increased power output; reduction of fuel required facilitating miniaturisation of DMFC; reduction of MEA cost as thinner membranes are required due to lower methanol permeability
优势:简单修改现有的制造工艺,更高的输出功率,减少小型化DMFC所需燃料,使用更薄的膜,并当降低甲醇渗透,使得MEA成本降低。
Proof of concept programme is underway to investigate optimal operating conditions. Industrial partners are sought for feedback and technology development/trials and as potential licensees. Patent application in progress.
商业化阶段:概念证明研究,寻找的最佳操作条件。正在需找工业合作伙伴和技术开发/试验。专利申请正在进行中。
