农业工程学报
農業工程學報
농업공정학보
2015年
4期
299-305
,共7页
陈龙%吴文福%秦骁%吴玉柱%陈思羽%刘景圣%张亚秋
陳龍%吳文福%秦驍%吳玉柱%陳思羽%劉景聖%張亞鞦
진룡%오문복%진효%오옥주%진사우%류경골%장아추
监测%温度%湿度%物联网%水势图%智能通风
鑑測%溫度%濕度%物聯網%水勢圖%智能通風
감측%온도%습도%물련망%수세도%지능통풍
monitoring%temperature%moisture%internet of things%water potential%intelligent ventilation
为了提高粮食仓储中通风作业的管理水平,并降低粮仓管理员的工作难度,该文提出了一种基于绝对水势图的粮仓远程智能通风测控系统的设计方案,采用物联网和Android技术着重研发了“粮仓智能通风系统”,并详细阐述了该系统的软硬件框架、主要功能模块及操作流程。绝对水势理论是利用水势图进行粮仓机械通风作业管理和控制的方法。在绝对水势理论中,提出了3个通风窗口:降温窗口、降水窗口、调质窗口。每个窗口都对应着相应的通风作业模式。当气温状态点在绝对水势图中的位置进入到某一窗口区域中时,则进行相应的通风作业。相比原始低效的温湿度数据处理方法,该系统数据用图形化的方式展现,降低了粮仓管理员的工作难度,加快了工作效率,解除了对粮仓管理员工作地点的限制,并且,该系统实现了对粮仓的信息化、智能化和远程化控制。在该系统的控制下,装粮试验中的模拟仓通风效果良好,并已安全度过长春地区储粮危险期。研究结果为相关粮食仓储工作提供参考。
為瞭提高糧食倉儲中通風作業的管理水平,併降低糧倉管理員的工作難度,該文提齣瞭一種基于絕對水勢圖的糧倉遠程智能通風測控繫統的設計方案,採用物聯網和Android技術著重研髮瞭“糧倉智能通風繫統”,併詳細闡述瞭該繫統的軟硬件框架、主要功能模塊及操作流程。絕對水勢理論是利用水勢圖進行糧倉機械通風作業管理和控製的方法。在絕對水勢理論中,提齣瞭3箇通風窗口:降溫窗口、降水窗口、調質窗口。每箇窗口都對應著相應的通風作業模式。噹氣溫狀態點在絕對水勢圖中的位置進入到某一窗口區域中時,則進行相應的通風作業。相比原始低效的溫濕度數據處理方法,該繫統數據用圖形化的方式展現,降低瞭糧倉管理員的工作難度,加快瞭工作效率,解除瞭對糧倉管理員工作地點的限製,併且,該繫統實現瞭對糧倉的信息化、智能化和遠程化控製。在該繫統的控製下,裝糧試驗中的模擬倉通風效果良好,併已安全度過長春地區儲糧危險期。研究結果為相關糧食倉儲工作提供參攷。
위료제고양식창저중통풍작업적관리수평,병강저량창관리원적공작난도,해문제출료일충기우절대수세도적량창원정지능통풍측공계통적설계방안,채용물련망화Android기술착중연발료“량창지능통풍계통”,병상세천술료해계통적연경건광가、주요공능모괴급조작류정。절대수세이론시이용수세도진행량창궤계통풍작업관리화공제적방법。재절대수세이론중,제출료3개통풍창구:강온창구、강수창구、조질창구。매개창구도대응착상응적통풍작업모식。당기온상태점재절대수세도중적위치진입도모일창구구역중시,칙진행상응적통풍작업。상비원시저효적온습도수거처리방법,해계통수거용도형화적방식전현,강저료량창관리원적공작난도,가쾌료공작효솔,해제료대량창관리원공작지점적한제,병차,해계통실현료대량창적신식화、지능화화원정화공제。재해계통적공제하,장량시험중적모의창통풍효과량호,병이안전도과장춘지구저량위험기。연구결과위상관양식창저공작제공삼고。
In this paper, a design of ‘intelligent remote monitoring and control system of the granary’ based on the absolute water potential theory (AWPT) has been proposed, which is used to improve information and intelligence level of the granary, and reduce the granary administrator’s work difficulty. “Granary Ventilation Intelligent Decision System” (GVIDS) is the realization of this design. GVIDS’s program development relies on the Android and the ‘internet of things’ technology. Its hardware framework, software framework, the main function modules and operational processes are the main research contents in this paper. The essence of AWPT is “the management and control method of granary’s mechanical ventilation using water potential diagram” proposed by Wu Wenfu et al., which is improved on the basis of the Wu model. In the AWPT, there are three ventilation windows: cooling window, precipitation window and quality adjustment window, and each window corresponds to its appropriate operation mode of ventilation. When using AWPT to guide granary ventilation, the position of the air-temperature-point in the ‘absolute water potential diagram’ is observed to determine the need for ventilation, which means that the administrator makes proper ventilation operation according to the ventilation window area that the air-temperature-point falls. The client APP (application) consists of five parts, which are “Information Profile” module, “Absolute Humidity Diagram” module, “Absolute Water Potential Diagram” module, “Associated Equipment” module and “Managing Log” module. The “Information Profile” module is mainly responsible for displaying the basic information of different granaries; the theoretical basis of “Absolute Humidity Diagram” module is the WU model. First, the client will obtain the latest temperature and humidity data collected from the database. Then, according to the new grain CAE equation and allowing ventilation condition table, calculate and judge whether the current situation needs ventilation. Finally, draw the balanced absolute humidity diagram and balanced relative humidity diagram on the client. Absolute Water Potential Diagram (AWPD) is mainly composed of four curves and one point: absolute potential line of the air, absolute adsorption water potential line of the grains, absolute desorption water potential line of the grains, saturated humidity line of the air, and saturated humidity point of the air (Q). In the AWPD, the area surrounded by the blue lines is the cooling window, the area surrounded by the red line is the precipitation window, and the area surrounded by the green lines is the quality adjustment window. Because the cooling operation and precipitation operation is sometimes performed at the same time, there will be an overlap of the cooling window and precipitation window. “Associated Equipment” module is used to display the current equipments associated with the state of the work, and the user can remotely control these equipments with the switch buttons. “Managing Log” module is used for displaying all of the granary operation logs. The client App has so many advantages, such as friendly interface, simple operation, wide adaptability and intelligent and remote control, and it would solve the problem of limited working place for the granary administrator. In the simulated granary loading experiment, the performance of this system is very good, and it should be promoted.