PENGARUH MODEL ALIRAN TERHADAP RECOVERY CO2 PADA ABSORPSI GAS CO2 OLEH LARUTAN K2CO3 DIDALAM PACKED COLUMN DENGAN KONDISI NON-ISOTHERMAL

Kusnarjo Kusnarjo; Kuswandi Kuswandi; Susianto Susianto; Ali Altway

doi:10.14710/reaktor.12.3.154 – 160

DOI: https://doi.org/10.14710/reaktor.12.3.154%20–%20160

PENGARUH MODEL ALIRAN TERHADAP RECOVERY CO2 PADA ABSORPSI GAS CO2 OLEH LARUTAN K2CO3 DIDALAM PACKED COLUMN DENGAN KONDISI NON-ISOTHERMAL

*Kusnarjo Kusnarjo - Laboratorium Perpindahan Panas dan Massa, Jurusan Teknik Kimia FTI-ITS, Indonesia

Kuswandi Kuswandi - Laboratorium Perpindahan Panas dan Massa, Jurusan Teknik Kimia FTI-ITS, Indonesia

Susianto Susianto - Laboratorium Perpindahan Panas dan Massa, Jurusan Teknik Kimia FTI-ITS, Indonesia

Ali Altway - Laboratorium Perpindahan Panas dan Massa, Jurusan Teknik Kimia FTI-ITS, Indonesia

Published: 5 May 2009.

BibTex Citation Data :

@article{Reaktor1519,
    author = {Kusnarjo Kusnarjo and Kuswandi Kuswandi and Susianto Susianto and Ali Altway},
    title = {PENGARUH MODEL ALIRAN TERHADAP RECOVERY CO2 PADA ABSORPSI GAS CO2 OLEH LARUTAN K2CO3 DIDALAM PACKED COLUMN DENGAN KONDISI NON-ISOTHERMAL},
    journal = {Reaktor},
  volume = {12},
    number = {3},
    year = {2009},
    keywords = {absorpsi, bilangan dispersi, packed column, raschig ring, recovery},
    abstract = {  Penelitian ini bertujuan untuk mempelajari pengaruh model aliran terhadap recovery gas pada absorpsi gas CO 2  menggunakan larutan K 2 CO 3  yang di kontakkan secara berlawanan arah (counter current) didalam packed column menggunakan packing jenis raschig ring. Penelitian dilakukan menggunakan kolom kaca berdiameter 10 cm dan tinggi 150 cm. Packing dibuat dari logam aluminium berdiameter 1,0 cm dan tinggi 2,0 cm yang mengisi bagian kolom setinggi 100 cm. Variabel penelitian ini adalah konsentrasi CO 2   20% volume, dengan laju alir 10  sampai 35 l/menit dan konsentrasi  K 2 CO 3 ,1M  dan 1,5M dengan laju alir 3 sampai 7,5 l/menit.   Dari hasil penelitian absorpsi gas CO 2  20% volume menggunakan larutan Benfield dengan model aliran non-ideal besar % r  ecovery gas CO 2  dengan larutan K 2 CO 3  1,5M, jumlahnya lebih besar dibandingkan dengan larutan K 2 CO 3  1M, sedangkan a  bsorpsi CO 2  dengan campuran   udara 80% volume dengan model aliran non-ideal (D/uL=0,1), jumlah % recovery gas CO 2  lebih kecil dibandingkan dengan aliran ideal (D/uL=0,2). V  alidasi antara     simulasi dengan eksperimen   dengan cara membandingkan kesalahan hasil penelitian   menunjukkan bahwa besar % recovery CO 2  secara ekperimen lebih rendah dibandingkan dengan cara simulasi  . Hasil perhitungan % recovery gas CO 2  menggunakan jenis aliran tidak ideal mendekati data eksperimen dengan error 6,52%.  },
   issn = {2407-5973},   pages = {154--160}  doi = {10.14710/reaktor.12.3.154 – 160},
    url = {https://ejournal.undip.ac.id/index.php/reaktor/article/view/1519}
}

Citation Format:

Abstract

Penelitian ini bertujuan untuk mempelajari pengaruh model aliran terhadap recovery gas pada absorpsi gas CO₂ menggunakan larutan K₂CO₃ yang di kontakkan secara berlawanan arah (counter current) didalam packed column menggunakan packing jenis raschig ring. Penelitian dilakukan menggunakan kolom kaca berdiameter 10 cm dan tinggi 150 cm. Packing dibuat dari logam aluminium berdiameter 1,0 cm dan tinggi 2,0 cm yang mengisi bagian kolom setinggi 100 cm. Variabel penelitian ini adalah konsentrasi CO₂20% volume, dengan laju alir 10 sampai 35 l/menit dan konsentrasi K₂CO₃,1M dan 1,5M dengan laju alir 3 sampai 7,5 l/menit. Dari hasil penelitian absorpsi gas CO₂20% volume menggunakan larutan Benfield dengan model aliran non-ideal besar % recovery gas CO₂ dengan larutan K₂CO₃ 1,5M, jumlahnya lebih besar dibandingkan dengan larutan K₂CO₃ 1M, sedangkan absorpsi CO₂ dengan campuran udara 80% volume dengan model aliran non-ideal (D/uL=0,1), jumlah % recovery gas CO₂lebih kecil dibandingkan dengan aliran ideal (D/uL=0,2). Validasi antara simulasi dengan eksperimen dengan cara membandingkan kesalahan hasil penelitian menunjukkan bahwa besar % recovery CO₂ secara ekperimen lebih rendah dibandingkan dengan cara simulasi. Hasil perhitungan % recovery gas CO₂menggunakan jenis aliran tidak ideal mendekati data eksperimen dengan error 6,52%.

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Keywords: absorpsi, bilangan dispersi, packed column, raschig ring, recovery

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Section: Research Article

Language : EN

In Volume 12, Nomor 3, Juni 2009

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