日本诺东半岛海岸粉煤灰多孔混凝土板海藻床施工现场监测

O. Miki, Chikako Okumura, Takatoshi Nakazima, C. Sannoh, Yoshito Tanaka, Ryoko Ishikawa
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摘要

2013年11月23日至2017年10月14日,我们在日本诺藤半岛沿海地区进行了一项中试试验,使用新开发的粉煤灰(FA)多孔混凝土板或传统混凝土板作为混凝土基材建造海藻床。以某燃煤电厂生产的粉煤灰代替20 ~ 40%的水泥,制成FA多孔混凝土板。4年后在两种基质上生长的黑斑Ecklonia kurome孢子体总数为14个。第3年开始发生中央层侵蚀,第4年超过50%的黑马孢子体成熟。在FA多孔混凝土板上比在普通混凝土板上生长更多的黑藤孢子体;FA多孔混凝土板上黑穗病菌孢子体最大密度为24株/ m2。黑穗草孢子体的最终数量在不同基质两侧差异很大,似乎受到波浪的强烈影响。在4年的生长监测中,未发现草食性鱼类和底栖动物的放牧痕迹。这些结果表明,在诺托半岛沿海地区,利用FA多孔混凝土板建造黑龙岩床是可行的。
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Field Monitoring of Seaweed Bed Construction Using Coal-fly-ash Porous Concrete Panels on Coast of Noto Peninsula, Japan
We conducted a pilot-scale experiment for seaweed bed construction using concrete substrata with newly developed fly-ash ( FA ) porous concrete panels or conventional concrete panels from November 23, 2013 to October 14, 2017 in a coastal area of Noto Peninsula, Japan. The FA porous concrete panel was manufactured by replacing 20-40 % of the cement with coal fly ash produced in a coal power plant. The total number of Ecklonia kurome sporophytes grown on two substrata after four years was 14 . The erosion of central lamina began in the third year and the maturing of over 50 % of E. kurome sporophytes was observed in the fourth year. A greater number of E. kurome sporophytes tended to grow on FA porous concrete panels than on normal concrete panels; the maximum density of E. kurome sporophytes attached to FA porous concrete panels was 24 individuals per square meter. The final number of E. kurome sporophytes largely differed among the sides of each substratum, which seemed to be strongly affected by waves. No grazing marks of herbivorous fishes and benthic animals were observed during the four years of growth monitoring. These results suggest that E. kurome bed construction using FA porous concrete panels in the coastal area of Noto Peninsula would be possible.
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