Increase of paddy moisture with automatic aeration in a warehouse guided by adsorption equilibrium absolute humidity equation

Poster

Autor/innen

  • Xingjun Li Academy of the State Administration of Grains, Beijing 100037, China
  • Zidan Wu College of Biological and Agricultural Engineering, Jilin University, Changchun 130024, China
  • Shude Yin Dianjiang State Grain Reserve Depot, Dianjiang 408300, Chongqin, China
  • Yongqing Zhao Pingyuan Longmen Grain Reserve Depot, Pingyuan 253100, China
  • Yisan Duan Shandong Grain Reserve Depot for Army Provision, Qihe 251100, China
  • Efeng Yan Shandong Grain Reserve Depot for Army Provision, Qihe 251100, China
  • Xiaoming Wu Tainjin Minglun Electronic Technology Co., Ltd, Tianjin 300384, China

DOI:

https://doi.org/10.5073/jka.2018.463.085

Schlagworte:

paddy, EMC, moisture adsorption, increasing moisture, automatic aeration

Abstract

An automatic bulk monitoring and aeration controller was programmed with an adsorption equilibrium absolute humidity (CAE)equation and was used to aerate paddy with the aim to increase moisture content (MC) and preventing fissuring. The ventilation control window for rewetting paddy was developed according to two conditions: (i) the average grain bulk temperature (t<sub>g</sub>) is higher than the dewpoint temperature (DPT<sub>a</sub>) of the atmosphere; and (ii) the equilibrium absolute humidity (EAH<sub>g</sub>) of grain moisture content plus 1 percentage point is lower than the absolute humidity (AH<sub>a</sub>) of the atmosphere. The ventilators were turned on when the atmosphere state point was within the ventilation windowand turned off outside that window. In a humid subtropical monsoon climate, during Oct. 8<sup>th</sup> to Nov. 1<sup>st</sup>, 2013, the system was used for a paddy depot of 1035 t in Dianjiang, Chongqing province. The natural humid air was introduced into the paddy bulk by negative pressure suction aeration during the 10-12 h night time period and allowed to equilibrate with grain kernels during the 12-14 h day time period. Aeration increased grain MC by 0.6 percentage points with two 1.5 kW axial flow ventilators and power consumption of 209 kW·h. The unit energy consumption was 0.336 KW·h (1% moisture·t)<sup>-1</sup>. The broken milled rice percentage was decreased by 2-3 percentage points. In the warm temperate semi-humid monsoon climate, during April 13<sup>th</sup> to June 16<sup>th</sup>, 2017, the system was used to rewet japonic paddy in a 2489 t depot in Qihe, Shandong province. The conditions for running two 0.85 kW axial flow fans were: (i) when the atmosphere relative humidity (RH<sub>a</sub>) is =80% and its temperature (t<sub>a</sub>) is <28°C, t<sub>g</sub>>DPT<sub>a</sub>, and EAH<sub>g</sub><AH<sub>a</sub>; and (ii) when RH<sub>a</sub> >80% and t<sub>a</sub> <28°C. Whenever t<sub>a</sub> was >28°C, the two fans were switched off. This rewetting aeration increased grain MC from 13.5% to 14.0%, and the unit energy consumption was 0.455 kW·h (1% moisture·t)<sup>-1</sup>. The percentages of average head rice yield and damaged grains after aeration were 71.7% and 7.7%, respectively.

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Veröffentlicht

2018-10-25