Variasi Penambahan Media Adsorpsi Kontak Aerasi Sistem Nampan Bersusun (Tray Aerator) Terhadap Kadar Besi (Fe) Air Tanah Dangkal di Kabupaten Rembang

Tri Joko; Savitri Rachmawati

doi:10.21456/vol%viss%ipp1-12

DOI: https://doi.org/10.21456/vol%25viss%25ipp1-12

Variasi Penambahan Media Adsorpsi Kontak Aerasi Sistem Nampan Bersusun (Tray Aerator) Terhadap Kadar Besi (Fe) Air Tanah Dangkal di Kabupaten Rembang

Tri Joko¹ , Savitri Rachmawati²

¹Jurusan Kesehatan Lingkungan Fakultas Kesehatan Masyarakat, Universitas Diponegoro, Indonesia

²Sarjana Kesehatan Masyarakat, Universitas Diponegoro, Indonesia

BibTex Citation Data :

@article{JKLI12308,
    author = {Tri Joko and Savitri Rachmawati},
    title = {Variasi Penambahan Media Adsorpsi Kontak Aerasi Sistem Nampan Bersusun (Tray Aerator) Terhadap Kadar Besi (Fe) Air Tanah Dangkal di Kabupaten Rembang},
    journal = {Jurnal Kesehatan Lingkungan Indonesia},
  volume = {15},
    number = {1},
    year = {2016},
    keywords = {dug well, iron, tray aerator, activated carbon, zeolite.},
    abstract = {   Backgorund:      People in the Jatihadi village are using d  u  g wells water which contain high iron level. The average of iron level is 2.79 mg/l.   Appropriate technology   tray aerator   with media contacts zeolite     and activated carbon is the right solution to overcome the problems of high Fe content  .   This study aim  s   to analyze the difference variation the addition of contact media adsorption on tray aerator for d  u  g wells iron level in Jatihadi village, Sumber subdistrict, Rembang regency.      Method:      The design of this study is pre experiment research with one group pretest posttest design.  We used Inductively Coupled Plasma (ICP) method to measure the iron level. Water sample volume for each aeration is 20 liters and there are 16 repetitions.   The media that we used in this research is zeolite and activated carbon.      Results:      The result showed   the   average levels of iron before treatment is 2.79 mg/l, and after the first treatment down to 0.21 mg/l, after second treatment is 0.25 mg/l. Statistical analysis showed that there is no difference between variation of contact media adsorption for d  u  g wells  iron level, but Wilcoxon analysis showed that there is a significant difference between before and after treatment for adding zeolite or activated carbon.      Conclusion:      The efficiency of tray aerator with the addition of zeolite is higher than addition of activated carbon.  },
   issn = {2502-7085},   pages = {1--5}  doi = {10.21456/vol%viss%ipp1-12},
    url = {https://ejournal.undip.ac.id/index.php/jkli/article/view/12308}
}

Citation Format:

Abstract

Backgorund: People in the Jatihadi village are using dug wells water which contain high iron level. The average of iron level is 2.79 mg/l. Appropriate technology tray aerator with media contacts zeolite and activated carbon is the right solution to overcome the problems of high Fe content. This study aims to analyze the difference variation the addition of contact media adsorption on tray aerator for dug wells iron level in Jatihadi village, Sumber subdistrict, Rembang regency. Method: The design of this study is pre experiment research with one group pretest posttest design. We used Inductively Coupled Plasma (ICP) method to measure the iron level. Water sample volume for each aeration is 20 liters and there are 16 repetitions. The media that we used in this research is zeolite and activated carbon. Results: The result showed the average levels of iron before treatment is 2.79 mg/l, and after the first treatment down to 0.21 mg/l, after second treatment is 0.25 mg/l. Statistical analysis showed that there is no difference between variation of contact media adsorption for dug wells iron level, but Wilcoxon analysis showed that there is a significant difference between before and after treatment for adding zeolite or activated carbon. Conclusion: The efficiency of tray aerator with the addition of zeolite is higher than addition of activated carbon.

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Keywords: dug well, iron, tray aerator, activated carbon, zeolite.

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Section: Research Articles

Language : ID

In Vol 15, No 1 (2016): April 2016

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