BAZI METAL ORGANİK KAFES YAPILI BİLEŞİKLERİN HİDROJEN DEPOLAMA PERFORMANSLARININ İNCELENMESİ

Zeynel ÖZTÜRK; D. Ali KÖSE; Banu ÖZTÜRK; Abdurrahman ASAN

INVESTIGATION OF HYDROGEN STORAGE PERFORMANCES OF SOME METAL ORGANİC FRAMEWORK STRUCTURED COMPOUNDS

Journal Name:

Gazi Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi

Publication Year:

2013

Key Words:

Keywords (Original Language):

Author Name	University of Author	Faculty of Author
Zeynel ÖZTÜRK	Hitit Üniversitesi	Mühendislik Fakültesi
D. Ali KÖSE	Hitit Üniversitesi	Fen Edebiyat Fakültesi
Banu ÖZTÜRK	Hitit Üniversitesi	Fen Edebiyat Fakültesi
Abdurrahman ASAN	Hitit Üniversitesi	Mühendislik Fakültesi

Abstract (2. Language):

Unlike other known storage systems, it is known that, hydrogen is capable of being absorbed in some storage media physically by means of weak Van der Waals interaction or by chemically. Hydrogen can be stored in carbonnanotubes or in zeolites through physical absorption, or it can be stored in Metal OrganicFrameworks (MOFs) which have higher surface area. In this study, in order for the solution of the weak aspect of hydrogen energy system, mixed ligand organometallic trans-Diaquabis (nicotinamide-κN) bis(salicylato-κO) cobalt(II), trans-Diaquabis (3-hidroxybenzoato-κO1) bis(nicotinamide-κN1) cupper(II), (p-brominbenzoato) bis(N,Ndiethylnicotinamid) cobalt(II) (A1, A2, A3 respectively) complexes are systeszed, then charactarized by TG, FTIR, X-Ray and elementel analysis, hydrogen storage performances are determined by adsorption. At the end of measurements it is found out that the synthesized compounds at 77K and under 90 bars pressure can store hydrogen wt% 2,59, 2,63 and 3,22 respectively.

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Abstract (Original Language):

Hidrojenin bilinen depolama sistemlerinden farklı olarak depolama ortamlarında kimyasal olarak veya zayıf van der Waals etkileşimleriyle fiziksel olarak tutunabildiği bilinmektedir. Hidrojen, fiziksel adsorpsiyonla karbon nanotüplerde, zeolitlerde veya bunlardan çok daha yüksek yüzey alanına sahip Metal Organik Kafes (Metal Organic Framework; MOF)’lerde depolanabilmektedir. Bu çalışmada, hidrojen enerjisi depolama sistemi zayıf yönünün iyileştirilmesi için karışık ligandlıorganometalik trans-Diaquabis (nikotinamid-κN)bis(salisilato- κO)kobalt(II), trans-Diaquabis (3-hidroksibenzoato-κO1)bis(nikotinamid-κN1) bakır(II), (p-brombenzoato) bis(N,N-dietilnikotinamid) kobalt(II) kompleksleri (sırasıyla A1, A2, A3) sentezlenmiş, TG, FT-IR, X-Ray ve Elementel analizlerle karakterize edilmiş, adsorpsiyon analiziyle hidrojen depolama performansları belirlenmiştir. Sentezlenen komplekslerin (A1, A2, A3) 90 bar basınç ve 77°K sıcaklıkta yapılan ölçümler sonucu hidrojen depolama miktarları sırasıyla kütlece % 2,59, %2,63 ve %3,22 oldukları belirlenmiştir.

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REFERENCES

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BAZI METAL ORGANİK KAFES YAPILI BİLEŞİKLERİN HİDROJEN DEPOLAMA PERFORMANSLARININ İNCELENMESİ

Journal Name:

Publication Year:

Key Words:

Keywords (Original Language):

Hidrojen Depolama

MOF

hidrojen enerjisi

REFERENCES

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Buradasınız

BAZI METAL ORGANİK KAFES YAPILI BİLEŞİKLERİN HİDROJEN DEPOLAMA PERFORMANSLARININ İNCELENMESİ

Journal Name:

Publication Year:

Key Words:

Keywords (Original Language):

Hidrojen Depolama

MOF

hidrojen enerjisi

REFERENCES

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