机构地区:[1]中国农业大学现代精细农业系统集成研究教育部重点实验室,北京100083 [2]中国农业大学农业部农业信息获取技术重点实验室,北京100083 [3]河北农业大学机电工程学院,保定071001 [4]希腊雅典农业大学农业工程系,希腊雅典11855
出 处:《农业工程学报》2016年第22期100-106,共7页Transactions of the Chinese Society of Agricultural Engineering
基 金:国家重点研发计划支持项目(2016YED0201003)
摘 要:封闭式栽培是解决中国日光温室传统栽培连作障碍问题的有效途径之一。营养液调控过程的性能指标是封闭式栽培模式的关键。该文针对一种具有二次混肥特性的营养液调控过程进行动态分析并建立模型,使用PID控制算法实现了营养液调控,并对影响因素进行对比试验。试验结果表明,系统达到稳定的时间随出液流量的减小或营养液浓度之和的增大呈现减小的趋势;系统震荡持续时间与超调量随出液流量的减小或营养液浓度之和的增大呈现增大的趋势。由试验结果与分析可知,该带有二次混肥的封闭式栽培系统中最优的出液流量与营养液浓度之和分别为6 m3/h与200 g/L,在此状态下进行PID控制参数整定,得到系统在最优条件下稳定时间为100 s、超调量为3%、震荡持续时间为25 s。表明该带有二次混肥的封闭式栽培系统的营养液调控过程能使用PID算法进行调控,能使系统实现稳定、高效的运行。该研究为封闭式栽培的营养液调控提供了参考。Closed cultivation is a new type of cultivation model, which is widely used in solar greenhouse, and it uses EC as the performance index of the regulation process of nutrient solution. In the study, a dynamic analysis was conducted on the regulation process of closed culture nutrient solution with two-step mixed fertilizer characteristics. PID control algorithm was used to control the regulation process of the nutrient solution, and the effects of 6 factors on control process were analyzed through comparative experiment. The results showed that it was difficult to use a precise model to characterize the fertilizer mixing process, since the output liquid flow rate, the fertilizer concentration and the PID parameters had great influence on the control effect of the two-step mixed fertilizer system. Experiments were carried out to find the effect of different output liquid flow rates, fertilizer concentration and the PID parameters, on PID control model. The results were obtained using the fixed variable method and orthogonal tests, under the target electrical conductivity (EC) of 2.3. The experimental results showed that the time of the system decreased with the decrease of the output liquid flow rate or the increase of the fertilizer concentration. Duration of system oscillation and overshoot amount increased with the decrease of the output liquid flow rate or the increase of the fertilizer concentration. Keeping the fertilizer concentration and the PID parameters (obtained under the condition that the output liquid flow rate was 4 m3/h and the fertilizer concentration were 4 channels) unchanged, and the target EC of 2.3, the duration of system oscillation was changed from 15 s to 125 s while the output liquid flow rate was changed from 10 m3/h to 4 m3/h, and, the stable time was changed from 180 s to 205 s and the overshoot was changed from 1% to 20%. Keeping the output liquid flow rate and the PID parameters (obtained under the condition that the output liquid flow rate was 4 m3/h and the fertilizer co
关 键 词:温室 模型 算法 营养液调控 封闭式栽培 PID 二次混肥机构 日光温室
分 类 号:S24[农业科学—农业电气化与自动化] TP29[农业科学—农业工程]
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