文化大學機構典藏 CCUR:Item 987654321/3141
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    Please use this identifier to cite or link to this item: https://irlib.pccu.edu.tw/handle/987654321/3141


    Title: 不同遠紅外線含量對綠豆芽生長程度之研究
    Authors: 邢文灝
    林榮敏
    王呈元
    Contributors: 紡工系
    Keywords: 遠紅外線
    聚酯纖維
    綠豆
    Date: 2007-09-01
    Issue Date: 2010-05-13 09:52:08 (UTC+8)
    Abstract: 本研究是以不同遠紅外線含量之聚酯纖維覆蓋於培芽箱底部,再將綠豆種植於培芽箱內,分別探討遠紅外線纖維對綠豆芽的長度、直徑、重量等生長性狀之影響,另將不同遠紅外線含量之聚酯纖維測量其對於水分散失之影響,及測量遠紅外線聚酯纖維使用前後放射率是否有衰解。結果顯示,有鋪覆遠紅外線纖維之實驗組,豆芽生長長度優於未添加之對照組。在豆芽生長長度方面遠紅外線含量0.6%之實驗組比對照組平均長了1.75 cm。豆芽直徑與重量方面,有鋪覆遠紅外線纖維之實驗組與對照組比較並無顯著之影響。水分散失率,遠紅外線含量1.5%之聚酯纖維比對照組多散失了16.1%。種植綠豆後之遠紅外線聚酯纖維的放射率下降了0.04~0.05。

    In this research, we planted mung beans onto the polyester fiber with different contents of the far infrared, and put them into a bud box. Discuss about the fiber with different contents of far infrared could affect the length of the bean sprouts, diameter, and weight. Also, we measured the influence of the polyester fiber humidity lost with different contents of the far infrared. More test, measured the loss of emanation between non-used polyester and used polyester. The results show that the bean sprouts growth length of the far infrared polyester fiber is better than without far infrared polyester fiber. The value of the sprouts growth length with the content 0.6% of the far infrared polyester fiber grows 1.75 cm. In the bean sprouts diameter and weight, there is no obvious influence between the far infrared polyester and without far infrared polyester fiber. In the humidity lost, compare with the original polyester, the rate lost of the humidity which is the far infrared content 1.5% could lose 16.1%. In emanation rate, the emanation rate of the far infrared polyester would be lost 0.04~0.05 after planting the mung bean.
    Relation: 華岡紡織期刊 14卷3期 P.203-208
    Appears in Collections:[Department of Textile Engineering ] Journal of the Hwa Gang Textile

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