Behavior of Mg hardness in Boiler Water of Marine Auxiliary Boilers
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- Itami Yoshiharu
- 運輸省海技大学校
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- Nishikawa Eiichi
- 神戸商船大学
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- Kamata Tatsuyoshi
- 神戸商船大学
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- Morita Toshiki
- 神戸商船大学
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- Fukuda Katsuya
- 神戸商船大学
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- Umeda Masayoshi
- 大阪ボイラー製作所
Bibliographic Information
- Other Title
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- 船用低圧ボイラ水中におけるMg硬度の挙動
- フネヨウ テイアツ ボイラ スイチュウ ニ オケル Mg コウド ノ キョドウ
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Abstract
It is very important to investigate accurately the behavior of sea water component, especially of Mg hardness, for the boiler water qualtiy control of marine boilers. And also, important to investigate the behavior of PO43-, especially when Mg2+ and OH- coexist with it, for making the automatic control method proposed by the authors more feasible and reliable. Accordingly, this paper studies experimentally the behavior of Mg hardness when OH- and/or PO43- coexist, and when silica is mixed. Experiments were carried out at the condition of the same solution level with the water quality criterions adopted for actual boilers, by the use of an autoclave of which temperature and pressure adjusted as the same level with actual auxiliary boilers. The obtained results are summarized as follows.<BR>(1) In the reaction model developed so far, It has been thought so far that almost all Mg hardness reacts to form Mg (OH) 2 in the boiler water when the phosphate concentration is controlled appropriately by the alkali treatment. In this experiment, however, it was found that Mg reacts not only with OH-but also with PO43-, and the mole ratio of reaction products Mg (PO4) 2 and Mg (OH) 2, increases with the decrease of pH, that is, 0 at pH=12.0, and around 2 on pH 10.5.The mole ratio is hardly affected by the PO43- concentration and the reaction temperature in the range of 1MPa-3Mpa.<BR>(2) If SiO2 is mixed together with Mg hardness in the feed water, MgSiO3 is formed in boiler water. Its quantity increases with the increase of SiO2. The rest of Mg hardness unreacted with SiO2 is considered to react to form [Mg3 (PO4) 2] n⋅Mg (OH) 2 as mentioned above, and it is resulted in that pH and PO43- concentration are decreased.
Journal
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- JOURNAL OF THE MARINE ENGINEERING SOCIETY IN JAPAN
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JOURNAL OF THE MARINE ENGINEERING SOCIETY IN JAPAN 33 (10), 759-763, 1998
The Japan Institute of Marine Engineering
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Details 詳細情報について
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- CRID
- 1390001205160930560
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- NII Article ID
- 10002246869
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- NII Book ID
- AN00196373
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- ISSN
- 18844758
- 03883051
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- NDL BIB ID
- 4620198
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- Text Lang
- ja
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- Data Source
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- JaLC
- NDL
- Crossref
- CiNii Articles
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- Abstract License Flag
- Disallowed