Investigation and modelling of the electrical charging effect in birch wood above the fibre saturation point (FSP)

Q4 Agricultural and Biological Sciences
V. Tamme, A. Jänes, T. Romann, H. Tamme, P. Muiste, A. Kangur
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Abstract

Abstract Wood moisture content (MC) has a significant impact on all electrical properties of wood. Regarding the development of the (so-called polarization-type) wood moisture meter with the electrical charging effect for monitoring and controlling the wood drying process, it is of interest to expand the theoretical background of this type of novel wood moisture meter by means of modelling. Two mediums were selected for modelling – raw birch wood and, as a reference medium, birch liquid sap – into which two symmetrical carbon fibre measuring electrodes were inserted. In both mediums, direct current and alternating current were passed between electrodes at different electrode potentials. The electrical field and electrical response of the current-affected mediums were then measured and modelled in the time domain and frequency domain. The numerical results of modelling are comparable both in the time domain and frequency domain (i.e. if E = 1.8V, then Cs = 0.5 mF and C1,int = 0.7 mF). The concept of energetic chargeability (CHA(W)) of wood was defined and compared to conventional chargeability as defined by C. Schlumberger in 1913. Empirical dependencies of CHA(W) on electrode potential and primary energy W1 transmitted through the wood (sap) medium were found. In the frequency domain, frequency dependencies were found to distinguish between adsorption processes and mixed kinetics ranges in birch sap and in raw birch wood.
桦木纤维饱和点(FSP)以上电荷效应的研究与建模
摘要木材含水率(MC)对木材的所有电性能都有显著的影响。针对利用充电效应(所谓极化型)监测和控制木材干燥过程的木材湿度计的研制,通过建模的方式拓展这类新型木材湿度计的理论背景是有意义的。建模选择了两种介质——原始桦木和作为参考介质的桦木汁液——其中插入了两个对称的碳纤维测量电极。在这两种介质中,直流电和交流电以不同的电极电位在电极之间传递。然后测量了电流影响介质的电场和电响应,并在时域和频域建立了模型。模拟的数值结果在时域和频域都具有可比性(即如果E = 1.8V,则Cs = 0.5 mF, C1,int = 0.7 mF)。定义了木材的能量可充电性(CHA(W))的概念,并与C.斯伦贝谢在1913年定义的传统可充电性进行了比较。发现了CHA(W)与电极电位和通过木材(sap)介质传递的一次能量W1的经验依赖关系。在频域,频率依赖关系被发现区分吸附过程和混合动力学范围在桦树液和原桦木。
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来源期刊
Forestry Studies
Forestry Studies Agricultural and Biological Sciences-Forestry
CiteScore
0.70
自引率
0.00%
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0
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