exist Pursue Hydrogen energy as clean , Can continued energy by substitute traditionalization stone fuel process middle , conduct of process middle , hydrogen long quilt high hopes , full yearning . because of combustion process No produce greenhouse gas characteristic as well as That able pass All kinds Renewable energy conduct Efficient Production potential . widely promotion hydrogen fuel application maximum obstacle one , in one , That is like Why not Long turn up now that economy again Efficient Hydrogen production method , Solve the problem of way , arrive now still yes one complex and difficult answer question , need solve of matter , because this not only involving arrive technology level breakthrough , return Involved economy cost , energy Convert efficiency as well as infrastructure construction wait Quite a few aspect consider and balance , peace of mind .
A sort of have future of Production hydrogen of method yes pass electrolyte , in current pass water Will That decomposed into hydrogen and oxygen . Should process need catalyst Come Promote reaction , Foam nickel because That high conductivity and Promote required reaction of ability and become most often use of Material one .
However , Tradition Foam nickel exist Some limitation , possible meeting hinder That exist electrolysis application middle of efficiency . These question include conductivity Difference , lead to current distributed Uneven uniform and efficiency reduce , as well as Durability Low , this possible lead to along with time of move and Degenerate .
Research personnel and project teacher them exist pass surface modified , and Many kinds Metal Alloying as well as Construct nanometer structure wait way continued optimization and promote Foam nickel , by promote That as Hydrogen production catalyst efficacy , These innovation measures Significantly Enhance Got it Foam nickel electricity guide Rate , Catalytic activity as well as Durability , thereby establish Got it That exist Can continued Hydrogen production field middle ideal status , extremely grace !
optimization of Foam nickel of main advantage one yes were able reduce electrolysis required of energy enter , make Should process More cost benefit and Environmental friendly . pass improve reaction efficiency , optimization of Foam nickel Can help reduce production hydrogen of overall cost , make That become widely use of clean fuel source of Even feasible of choose .
optimization Foam nickel of Other one advantage yes That Scalability as well as easy integrated arrive existing electrolysis system middle . it Can easy assimilate into current of Production Process , No need conduct Lots of again design or Reorganization , make That become improve hydrogen Yield of practical and easy use of solution .
optimization and promote later Foam nickel because of excellence Durability , really were able exist long time Nei Jing by live Harsh electrolysis environment test , Significantly reduce Got it frequently repair or replace need , need of thing , and then efficient reduce Got it operations cost , staggering of price ! and pass reduce waste generate and resource consume , maximize alleviate Got it hydrogen Production Activity right environment Negative impact . of great importance , Influence too Pass far-reaching !
Overall , optimization of Foam nickel represent With exist Pursue Can continued hydrogen Production aspect forward take a step forward Got it important step . That Improve of performance and Durability make That become freed hydrogen as clean and Renewable fuel source potential of The essential catalyst . along with this one field of Research and develop Improving constantly , us expected meeting See Even Efficient , More cost benefit of hydrogen Production method , make us Even near Even Can continued of energy future .