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Design of greenhouse temperature and humidity wireless control system based on CC3200
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作者 ZHAO Cheng-cheng DING Hai-fei +1 位作者 LIU Wen-yi KANG Xi 《Journal of Measurement Science and Instrumentation》 CAS CSCD 2018年第2期134-139,共6页
Referring to the shortages that the process of traditional greenhouse measurement by using thermometer and hygrometer is complex,the measurement result is not accurate,and the control system operation is cumbersome,a ... Referring to the shortages that the process of traditional greenhouse measurement by using thermometer and hygrometer is complex,the measurement result is not accurate,and the control system operation is cumbersome,a greenhouse temperature and humidity(TH)control system based on CC3200 is designed.The system uses FPGA as the main controller,sends the TH signals to the wireless module CC3200 by controlling DHT22.The proposed system realizes the remote transmission of data and the automatic control of system. 展开更多
关键词 field programmable gate array(FPGA) CC3200 DHT22 temperature and humidity(TH)of greenhouse wireless control
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Sea surface temperature data from coastal observation stations:quality control and semidiurnal characteristics 被引量:1
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作者 Hua Yang Qingqing Gao +2 位作者 Huifeng Ji Peidong He Tianmao Zhu 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2019年第11期31-39,共9页
Sea surface temperature(SST)data obtained from coastal stations in Jiangsu,China during 20102014 are quality controlled before analysis of their characteristic semidiurnal and seasonal cycles,including the correlation... Sea surface temperature(SST)data obtained from coastal stations in Jiangsu,China during 20102014 are quality controlled before analysis of their characteristic semidiurnal and seasonal cycles,including the correlation with the variation of the tide.Quality control of data includes the validation of extreme values and checking of hourly values based on temporally adjacent data points,with 0.15℃/h considered a suitable threshold for detecting abnormal values.The diurnal variation amplitude of the SST data is greater in spring and summer than in autumn and winter.The diurnal variation of SST has bimodal structure on most days,i.e.,SST has a significant semidiurnal cycle.Moreover,the semidiurnal cycle of SST is negatively correlated with the tidal data from March to August,but positively correlated with the tidal data from October to January.Little correlation is detected in the remaining months because of the weak coastal offshore SST gradients.The quality control and understanding of coastal SST data are particularly relevant with regard to the validation of indirect measurements such as satellite-derived data. 展开更多
关键词 SEA surface temperature data quality control semidiurnal cycle TIDAL MOVEMENT COASTAL observationS
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Estimating the Correlated Observation-Error Characteristics of the Chinese FengYun Microwave Temperature Sounder and Microwave Humidity Sounder
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作者 Ting WANG Jianfang FEI +2 位作者 Xiaoping CHENG Xiaogang HUANG Jian ZHONG 《Advances in Atmospheric Sciences》 SCIE CAS CSCD 2018年第11期1428-1441,共14页
In operational data assimilation systems, observation-error covariance matrices are commonly assumed to be diagonal.However, inter-channel and spatial observation-error correlations are inevitable for satellite radian... In operational data assimilation systems, observation-error covariance matrices are commonly assumed to be diagonal.However, inter-channel and spatial observation-error correlations are inevitable for satellite radiances. The observation errors of the Microwave Temperature Sounder(MWTS) and Microwave Humidity Sounder(MWHS) onboard the FengYun-3A(FY-3A) and FY-3B satellites are empirically assigned and considered to be uncorrelated when they are assimilated into the WRF model's Community Variational Data Assimilation System(WRFDA). To assimilate MWTS and MWHS measurements optimally, a good characterization of their observation errors is necessary. In this study, background and analysis residuals were used to diagnose the correlated observation-error characteristics of the MWTS and MWHS. It was found that the error standard deviations of the MWTS and MWHS were less than the values used in the WRFDA. MWTS had small inter-channel errors, while MWHS had significant inter-channel errors. The horizontal correlation length scales of MWTS and MWHS were about 120 and 60 km, respectively. A comparison between the diagnosis for instruments onboard the two satellites showed that the observation-error characteristics of the MWTS or MWHS were different when they were onboard different satellites. In addition, it was found that the error statistics were dependent on latitude and scan positions.The forecast experiments showed that using a modified thinning scheme based on diagnosed statistics can improve forecast accuracy. 展开更多
关键词 data ASSIMILATION CORRELATED observation ERRORS MWTS(Microwave temperature Sounder) MWHS(Microwave humidity Sounder)
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COMPUTER DECOUPLE CONTROL OF TEMPERATURE AND HUMIDITY IN PREPROCESSING CHAMBER OF AIR-CONDITIONING TEST EQUIPMENT
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作者 陆宏正 盖其祥 《Journal of China Textile University(English Edition)》 EI CAS 1989年第2期29-34,共6页
This paper deals with the application of decouple Control theory to temperature and humidi-ty control in air-conditioning system. The decouple control algorithm for bivariable systems isderived applicablly for air-con... This paper deals with the application of decouple Control theory to temperature and humidi-ty control in air-conditioning system. The decouple control algorithm for bivariable systems isderived applicablly for air-conditioning system. The algorithm is used to design a temperatureand humidity computer control system for the preprocessing chamber of air-conditioning testequipment. The results of the real-time control experiments indicate that the decouple controlalgorithm is feasible, the control quality is improved and high control precision is achieved. 展开更多
关键词 COMPUTER applications COMPUTER control DECOUPLING temperature control system humidity control system air conditioning control
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Temperature and Humidity Control in Greenhouses in Desert Areas
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作者 Shigeki Hirasawa Mai Nakatsuka +2 位作者 Kunio Masui Tsuyoshi Kawanami Katsuaki Shirai 《Agricultural Sciences》 2014年第13期1261-1268,共8页
Water consumption can be reduced by using a greenhouse for agriculture in desert areas. We analyzed the effect of control of ventilation, sprinkler water, and solar radiation?shielding on changes of temperature and hu... Water consumption can be reduced by using a greenhouse for agriculture in desert areas. We analyzed the effect of control of ventilation, sprinkler water, and solar radiation?shielding on changes of temperature and humidity in a greenhouse under various desert area conditions. We calculated the changes in temperature and humidity in a greenhouse for a whole day in four seasons, and the calculation results of water consumption with and without a greenhouse were compared. When ventilation, shielding, and sprinkler water were controlled under suitable conditions to grow orchids in a desert area, water consumption in July was only 7% of that without a greenhouse. 展开更多
关键词 temperature control humidity Ventilation SPRINKLER Water HEAT TRANSFER GREENHOUSE DESERT
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Visco-elastic-plastic model of deep underground rock affected by temperature and humidity 被引量:9
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作者 GAO, Yanan GAO, Feng +1 位作者 ZHANG, Zhizhen ZHANG, Tao 《Mining Science and Technology》 EI CAS 2010年第2期183-187,共5页
As the depth of exploitation increases,studies on constitutive models of rock affected by temperature and humidity become very important.Based on the Nishihara model,a visco-elastic-plastic rock model was established ... As the depth of exploitation increases,studies on constitutive models of rock affected by temperature and humidity become very important.Based on the Nishihara model,a visco-elastic-plastic rock model was established by using the coefficients of thermal and humidity expansion,thermal viscosity attenuation,humid viscosity attenuation and acceleration rheology components.We used the definition of a controlled heat circle to explain the model.The results show that the behavior of rock,affected by temperature and humidity,is stable as a function of time when the stress is lower than the first yield stress σS1;the creep rate will increase due to the effect of temperature and humidity when the stress is greater than or equal to σS1;the creep rate will accelerate at an increasing rate when the stress is greater than or equal to the second yield stress σS2,which results in a failure of the roadway.The model derived in this study can completely describe visco-elastic-plastic characteristics and reflects the three stages of rock creep. 展开更多
关键词 temperature humidity CREEP controlled heat circle
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Room temperature and humidity decoupling control of common variable air volume air-conditioning system based on bilinear characteristics 被引量:1
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作者 Yuan Zhang Tian Yan +2 位作者 Xinhua Xu Jiajia Gao Gongsheng Huang 《Energy and Built Environment》 2023年第3期354-367,共14页
Variable air volume(VAV)air-conditioning(AC)systems are widely employed to achieve a comfortable room thermal and humid environment depending on its better regulation performance and energy efficiency.In the single co... Variable air volume(VAV)air-conditioning(AC)systems are widely employed to achieve a comfortable room thermal and humid environment depending on its better regulation performance and energy efficiency.In the single coil VAV AC system,conventional proportional-integral(PI)control algorithm is usually adopted to track the set-points of the room temperature and humidity by regulating the supply air flow rate and the chilled water flow rate,respectively.However,the control performance is usually not good due to the high coupling of the heat and mass transfer in the air-handling unit(AHU).A model-based control method is developed to realize the decoupling control of the room temperature and humidity according to the bilinear characteristics of the temperature and humidity variation.In this control method,a bilinear room temperature controller is used to track the room temperature set-point based on the real-time cooling load,while a room humidity controller is used to track the room humidity set-point depending on the real-time humidity load.The control performance was validated in a simulated VAV AC system.The test results show that comparing with the conventional PI control,the room temperature and humidity are controlled much more robustly and accurately by using the proposed model-based control method. 展开更多
关键词 VAV air-conditioning system Room temperature control Room humidity control Bilinear control Model-based cascade control
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Thermodynamic performance assessment of vacuum membrane-based dehumidification and air carrying energy radiant air-conditioning system(VMD-ACERS) 被引量:2
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作者 Liang Chun Guangcai Gong +1 位作者 Xi Fang Pei Peng 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2021年第6期217-227,共11页
Temperature and humidity independent control(THIC)air-conditioning system is a promising technology.In this work,a novel temperature and humidity independent control(THIC)system is proposed,namely VMD-ACERS,which inte... Temperature and humidity independent control(THIC)air-conditioning system is a promising technology.In this work,a novel temperature and humidity independent control(THIC)system is proposed,namely VMD-ACERS,which integrates vacuum membrane-based dehumidification and air carrying energy radiant air-conditioning system.This work establishes a novel coefficient of performance(COP)model of VMD-ACERS.The main parameters affecting the COP of conventional fan coil unit cooling system(FCUCS)and VMD-ACERS are investigated.The performance of FCUCS and VMD-ACERS are compared,and the energy-saving potential of VMD-ACERS is proved.Results indicate that,for FCUCS,the importance ranking of parameters is basically stable.However,for VMD-ACERS,the importance ranking will be affected by FCU and refrigerant.The most important parameters of VMD-ACERS are condensation temperature and permeate side pressure.On the contrary,superheating,subcooling are relatively less important parameters.For VMD-ACERS,it is not necessary to pursue the membrane with very high selectivity,because the selectivity of membrane would also be a less important parameter when it reaches 500.The COP of VMD-ACERS is higher than that of FCUCS when the permeate side pressure is higher than 8 k Pa.The VMD-ACERS solves two technical problems about power-saving and thermal comfort of conventional THIC,and can extend the application of THIC air-conditioning system. 展开更多
关键词 Fan coil unit cooling system temperature and humidity independent control ACERS Vacuum membrane-based dehumidification COP
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Development of Temperature-Humidity Independent Control Air-Conditioning Unit for Residential Buildings 被引量:3
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作者 HAN Xing1,ZHANG Xu1,LIU Jin-tao2,GAO Si-yun2,KANG Yue2(1.Institute of HVAC & Gas,College of Mechanical Engineering,Tongji University,Shanghai 200092,China 2.Hisense R&D Center,Qingdao,266000,China) 《湖南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2009年第S1期83-87,共5页
Cooling panels are increasingly used in domestic residential buildings.To provide medium temperature cold water for the cooling panel,and dehumidify the indoor air simultaneously,a new kind of temperature-humidity ind... Cooling panels are increasingly used in domestic residential buildings.To provide medium temperature cold water for the cooling panel,and dehumidify the indoor air simultaneously,a new kind of temperature-humidity independent control air-conditioning unit was developed for single residential house by utilizing multi-variable technology.First,the supply air temperature was studied to determine the proper supply air flow rate for the humidity control.Then,the energy consumption of different temperature-humidity independent control systems was studied.The analysis indicates that unity evaporating temperature can be used to handle the moisture load and sensible heat load in two evaporators.So the unit scheme was put forward.Two evaporators were used to produce medium temperature water and dry air separately,and electric expansion valves were used to control the refrigerant distribution between the two evaporators.Then,experimental work was carried out to investigate the influence of compressor frequency,refrigerant distribution on the dehumidification capacity,energy efficiency and refrigeration capacity.In the end,the paper concludes that both compressor frequency and refrigerant distribution can control the dehumidification capacity,but the former influences the EER more than the latter,while the latter influences the refrigeration capacity more than the former.We can find a proper running point at certain sensible and latent cooling load by adjusting both compressor frequency and electric expansion valve.The energy consumption of this kind of unit was estimated and compared with present room air conditioners,which shows that it can save about 41% cooling energy consumption. 展开更多
关键词 temperature-humidity INDEPENDENT control RESIDENTIAL BUILDINGS COLD DEHUMIDIFICATION experimental study
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A Spatial Consistency Quality Control Method for Daily Surface Temperature Observations
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作者 XIONG Xiong TANG Hong-sheng +1 位作者 ZHANG Ying-chao YE Xiao-ling 《Journal of Tropical Meteorology》 SCIE 2020年第4期461-472,共12页
Based on the spatial regression test (SRT) and random forest (RF), a new spatial consistency quality control method named SRF was adapted to identify potential outliers in daily surface temperature observations in thi... Based on the spatial regression test (SRT) and random forest (RF), a new spatial consistency quality control method named SRF was adapted to identify potential outliers in daily surface temperature observations in this article. For the new method, the SRT method was used to filter the data and the RF method was used to conduct regression. To evaluate the performance of the quality control method, the SRF, SRT and RF methods were applied to a surface temperature dataset with seeded errors from different regions of China from 2005 to 2014. The results indicate that the SRF method outperforms the other two methods in most cases. And the results of the comparison led to the conclusion that the SRF method improves the regression accuracy of traditional spatial consistency quality control methods and reduces the runtime of random forest through data refinement. 展开更多
关键词 surface temperature observations quality control regression SRF
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Reliability Evaluation of Wind Power Converter Under Fault-tolerant Control Scheme with Quantification of Temperature and Humidity Effects 被引量:1
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作者 Xueying Yu Bo Hu +4 位作者 Kaigui Xie Changzheng Shao Yunjie Bai Wenyuan Li Jinfeng Ding 《Journal of Modern Power Systems and Clean Energy》 SCIE EI CSCD 2023年第5期1700-1710,共11页
Wind power converter(WPC)is a key part of a wind power unit which delivers electric energy to power grid.Because of a large number of semiconductors,WPC has a high failure rate.This paper proposes a method to accurate... Wind power converter(WPC)is a key part of a wind power unit which delivers electric energy to power grid.Because of a large number of semiconductors,WPC has a high failure rate.This paper proposes a method to accurately evaluate the reliability of WPC,which is crucial for the design and maintenance of wind turbines.Firstly,the index of effective temperature(ET)is presented to quantify the effects of temperature and humidity on the semiconductor operation.A novel method is proposed to evaluate the lifetime and calculate the aging failure rates of the semiconductors considering the fluctuations of ET.Secondly,the failure mode and effect analysis(FMEA)of WPC is investigated based on the topology and control scheme.The conventional two-state reliability model of the WPC is extended to the multi-state reliability model where the partial working state under the fault-tolerant control scheme is allowed.Finally,a reliability evaluation framework is established to calculate the parameters of the WPC reliability model considering the variable failure rates and repair activities of semiconductors.Case studies are designed to verfify the proposed method using a practical wind turbine. 展开更多
关键词 Effective temperature(ET) fault-tolerant control scheme humidity reliability evaluation wind power converter(WPC)
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Optimization of hot-air microwave combined drying control system based on air outlet temperature and humidity monitoring
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作者 Fujie Zhang Anqi’er Hu +1 位作者 Ruikai Song Lixia Li 《International Journal of Agricultural and Biological Engineering》 SCIE EI CAS 2021年第4期255-261,共7页
Microwave drying is one of the most important drying methods in agriculture.The online measurement and control of material dried,as a challenging research issue,is helping to improve the drying quality of the final pr... Microwave drying is one of the most important drying methods in agriculture.The online measurement and control of material dried,as a challenging research issue,is helping to improve the drying quality of the final product and the energy utilization efficiency of microwave dryers.In order to realize the online measurement of temperature in microwave drying,a detection strategy was based on the temperature and humidity monitoring at the air outlet of coupling hot air and microwave drying method.LabVIEW programming software was employed to collect the temperature and humidity signal value at the outlet of the dryer to estimate the drying degree of the material.According to the amount of moisture removal in real-time,the microwave input power was adjusted gradually in the microwave drying process.Taking potato as material dried,the microwave power of microwave and hot air coupling drying is monitored to realize the real-time regulation.The results showed that the total color difference value of the product of 3.09,the rehydration ratio of 2.92,the unit energy consumption of 17419.35 kJ/kg,and the drying rate of 0.442 g/s were obtained.The minimum comprehensive weighted score of the product was 26.36.Compared with the orthogonal experiment,the optimal drying process was obtained as the total color difference value of the product of 2.84,the rehydration ratio of 3.01,the unit energy consumption of 17419.35 kJ/kg,and the drying rate of 0.397 g/s.The minimum comprehensive weighted score of the product was 20.67,and the difference was not significant.The control strategy not only solves the non-uniform phenomenon of drying,and makes the microwave drying real-time and continuous,but also improves the drying efficiency and quality. 展开更多
关键词 MICROWAVE DRYING temperature humidity control power POTATO
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杭州国家版本馆恒温恒湿空调系统设计 被引量:1
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作者 余红英 金涛 张浩 《暖通空调》 2024年第3期28-34,共7页
介绍了恒温恒湿库房空调系统的设计,提出了可在库房建成初期、运行稳定期、战时等灵活切换的3种运行模式,分析了其各自的处理过程与节能性;给出了平、战时空调系统选择方案,提出了平时回收空气源热泵机组和冷水机组的冷凝热作为再热热源... 介绍了恒温恒湿库房空调系统的设计,提出了可在库房建成初期、运行稳定期、战时等灵活切换的3种运行模式,分析了其各自的处理过程与节能性;给出了平、战时空调系统选择方案,提出了平时回收空气源热泵机组和冷水机组的冷凝热作为再热热源,战时利用新风预冷实现温湿度独立控制的方法;利用CFD模拟对室内气流组织进行了优化设计;提出了采用含湿量控制代替定露点法进行湿度控制和风机变频等控制策略。通过调试与运行,证明了各项设计措施在项目中应用的有效性。 展开更多
关键词 恒温恒湿 平战结合 库房 空调 热回收 再热 含湿量控制
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换热器面积对双蒸发温度空调系统性能影响的模拟研究
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作者 翁文兵 罗诗雨 白俊武 《制冷学报》 CAS CSCD 北大核心 2024年第3期89-96,共8页
建立了双蒸发温度空调系统仿真模型来研究改变换热器面积对系统性能的影响。搭建了双蒸发温度空调系统实验台,在实验工况下改变压缩机频率(30~120 Hz)和送风量(400~1 000 m^(3)/h),得到空调机组总制冷量Q_(c)、总显热制冷量Q_(s)和显热... 建立了双蒸发温度空调系统仿真模型来研究改变换热器面积对系统性能的影响。搭建了双蒸发温度空调系统实验台,在实验工况下改变压缩机频率(30~120 Hz)和送风量(400~1 000 m^(3)/h),得到空调机组总制冷量Q_(c)、总显热制冷量Q_(s)和显热比SHR,验证了所建模型精度。在模型中改变换热器面积(48盘管、60盘管、72盘管)进行系统运行调节范围的研究。结果表明:随着换热器面积的增加,系统Q_(c)、Q_(s)和SHR的调节范围在整体扩大,最大增幅分别为5.0%、13.8%、11.8%。当送风量为1 000 m^(3)/h,压缩机频率为30 Hz,换热器面积从48盘管增至60盘管、72盘管时,Q_(s)的增幅分别为9.8%和13.8%,表明换热器面积增至60盘管时Q_(s)增长效果显著,再增加换热器面积,Q_(s)虽有所增大但增幅放缓。最后提出一种以所需制冷量为目标,依据环境温湿度调节范围设计换热器面积的方法。 展开更多
关键词 双蒸发温度 显热比 制冷量 温湿度独立控制
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基于温湿度控制设计地下抗裂防渗漏混凝土的应用研究
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作者 赵群 田景松 王建光 《江西建材》 2024年第S01期162-165,共4页
文中基于温湿度控制思路,通过大掺量粉煤灰、多级配低空隙率骨料、分段补偿收缩和温湿度监测调控等成套技术设计抗裂防渗漏混凝土,以缓解或彻底消除地下结构开裂渗漏。
关键词 温度裂缝 大掺量粉煤灰 温湿度监测调控
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基于控温控湿的沙棘红外联合热风干燥均匀性与工艺 被引量:3
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作者 耿智化 李孟卿 +5 位作者 朱丽春 于贤龙 胡斌 张茜 王军扬 杨旭海 《农业工程学报》 EI CAS CSCD 北大核心 2024年第6期120-133,共14页
新鲜沙棘含水率高且易腐烂变质,干燥是延长货架期的重要方式之一。针对现有沙棘热风干燥周期长、品质差、能耗高等问题,该研究基于控温控湿设计了一种红外联合热风干燥装置,并对装置的气流分配室结构进行了优化,设计了一种圆柱形扰流板... 新鲜沙棘含水率高且易腐烂变质,干燥是延长货架期的重要方式之一。针对现有沙棘热风干燥周期长、品质差、能耗高等问题,该研究基于控温控湿设计了一种红外联合热风干燥装置,并对装置的气流分配室结构进行了优化,设计了一种圆柱形扰流板和方形挡风板,利用数值模拟软件COMSOL对干燥装置中速度场、温度场和湿度场进行了模拟,结果表明通过增加半圆柱扰流板能够改变干燥层间气流量,解决干燥不均匀性问题;借助增设扰流板能够提高气流速度,利用自由流区域高温低湿干燥介质的干燥能力,防止干燥层内不同区域出现干燥不均匀的现象。优化后的干燥室结构将5个干燥层间的最大速度偏差比显著降低。以沙棘为研究对象对干燥工艺进行了试验研究。结果表明,不同干燥温度对沙棘控温控湿红外联合热风干燥时间有显著影响,干燥水分比随干燥时间的增加呈现指数下降趋势。基于层次分析法得到各干燥特性和干燥品质权重,采用综合评价方法得到不同干燥温度下75℃干燥条件综合评分最高。不同介质湿度干燥条件下,当介质湿度为10%干燥时,干燥所需能耗最低,干燥后沙棘复水比最高,具有最高的维生素C(vitamin C,Vc)保留率和总黄酮含量,综合评分最高。40%介质湿度不同持续时间下,40 min得到的沙棘亮度值、复水比、Vc保留率和总黄酮含量最高,综合评分最高。该研究明确了控温控湿沙棘红外联合热风干燥最优工艺,对提升沙棘产地初加工机械化水平,促进沙棘产业健康持续发展具有重要意义。 展开更多
关键词 能耗 干燥 控温控湿 沙棘 均匀性 品质特性
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基于窄带物联网的茶叶灭虫控制系统研究 被引量:3
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作者 彭炜峰 罗静 +2 位作者 张洲亚 李光林 余金洋 《农机化研究》 北大核心 2024年第1期84-89,共6页
为克服当前物联网在丘陵地区农业生产过程中存在通信距离短、消耗功率大、终端数量易饱和等问题,以茶叶虫害防治为研究对象,将窄带物联网技术与农业生产相结合,实时精准监测土壤温湿度,并根据土壤温湿度数据变化远程控制茶叶灭虫电磁阀... 为克服当前物联网在丘陵地区农业生产过程中存在通信距离短、消耗功率大、终端数量易饱和等问题,以茶叶虫害防治为研究对象,将窄带物联网技术与农业生产相结合,实时精准监测土壤温湿度,并根据土壤温湿度数据变化远程控制茶叶灭虫电磁阀启闭状态,设计了智能茶叶灭虫控制系统,并优化了超级电容太阳能电源管理、无线传感网络监测、远程监测控制等核心技术及关键模块。试验结果表明:系统运行稳定,能通过窄带物联网技术实时监测、传输土壤温湿度信息,终端可实时远程控制茶叶灭虫电磁阀,实时启闭茶叶灭虫系统,达到了实时精准监测和远程控制的目的。研究弥补了当前物联网在农业生产中应用的不足,提高了太阳能电源使用效率,延长了蓄电池使用寿命,可为我国智慧农业发展提供参考。 展开更多
关键词 窄带物联网 超级电容 土壤温湿度 远程监控 灭虫控制 茶叶
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基于主元分析的温室物联网空气温湿度传感器故障诊断
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作者 范卫强 柳平增 +2 位作者 朱珂 孟宪勇 刘力宁 《中国农机化学报》 北大核心 2024年第5期69-78,共10页
针对温室物联网测控系统中空气温湿度传感器受恶劣环境影响易发生故障的问题,研究温室物联网测控系统中空气温湿度传感器的故障诊断,保障温室物联网测控系统整体工作的稳定可靠性,提出一种基于主元分析的空气温湿度传感器故障诊断方法... 针对温室物联网测控系统中空气温湿度传感器受恶劣环境影响易发生故障的问题,研究温室物联网测控系统中空气温湿度传感器的故障诊断,保障温室物联网测控系统整体工作的稳定可靠性,提出一种基于主元分析的空气温湿度传感器故障诊断方法。首先对空气温湿度传感器数据进行主元分析,通过监控平方预测误差统计量的变化实现传感器的故障检测;再针对检测出的空气温湿度传感器故障数据,利用加权后的平方预测误差统计量来计算传感器的累积贡献率,并将其作为传感器故障识别的指标,识别出现故障的空气温湿度传感器。利用空气温湿度传感器数据在不同故障条件下进行传感器故障诊断方法验证,验证结果表明:所提方法可用于温室物联网测控系统中空气温湿度传感器偏差故障和漂移故障的检测,偏差故障的检测效果要好于漂移故障,偏差故障综合检测率为100%,漂移故障综合检测率为51.25%;同时所提方法能够正确识别出故障传感器,有效提高温室物联网测控系统中空气温湿度传感器故障诊断结果的准确性。 展开更多
关键词 温室 物联网 空气温湿度传感器 故障诊断 主元分析 测控系统
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南方夏季犊牛气喘病的病因探究及其防控策略
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作者 陈桂平 林世宣 +5 位作者 刘美莲 汤欢欢 彭秀兰 杨帆 代雪艳 曹华斌 《饲料工业》 CAS 北大核心 2024年第21期164-168,共5页
南方夏季高温高湿,新生犊牛呼吸道黏膜屏障与免疫机制不健全,以“气喘”和“高热”为主要临床症状的气喘病频发,救治不及时易造成患畜死亡。引起犊牛喘气病的因素颇多,其中包括环境、饲养管理、异物性肺炎及病原体感染等,严重困扰肉牛... 南方夏季高温高湿,新生犊牛呼吸道黏膜屏障与免疫机制不健全,以“气喘”和“高热”为主要临床症状的气喘病频发,救治不及时易造成患畜死亡。引起犊牛喘气病的因素颇多,其中包括环境、饲养管理、异物性肺炎及病原体感染等,严重困扰肉牛养殖业。文章总结了南方夏季犊牛喘气病的常见病因及其综合防控策略,以期为该病的临床诊疗及综合防控提供参考。 展开更多
关键词 犊牛 高温高湿 气喘病 病因 防控策略
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信息物理系统(cyber-physical system)时空建模方法及在温室控制中的应用 被引量:9
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作者 王浩云 刘佼佼 +2 位作者 侯思宇 任守纲 徐焕良 《农业工程学报》 EI CAS CSCD 北大核心 2015年第15期183-190,共8页
传统农业采用人工方式对温室进行控制,但是随着现代农业的快速发展,这种人工投入大、精度低的控制方式已不能满足现代农业需要。该文基于分层有限状态机和事件晶格的概念,建立3层的信息物理系统模型,并提出一种基于分层有限状态机的信... 传统农业采用人工方式对温室进行控制,但是随着现代农业的快速发展,这种人工投入大、精度低的控制方式已不能满足现代农业需要。该文基于分层有限状态机和事件晶格的概念,建立3层的信息物理系统模型,并提出一种基于分层有限状态机的信息物理系统时空建模方法,同时利用该建模方法开发了新的温室控制系统。该系统能够将物理层传感器感知到的温室物理环境数据通过物理-信息层汇聚节点融合后上报信息层决策节点得到决策信息,物理-信息层控制节点分析决策信息得到控制信息后下传物理层执行器进行控制。由于该系统模型考虑了各层状态机中事件的时空属性,能够将温室控制的正确率由传统基于物联网的温室控制方法的80.20%提高到87.20%,错误肯定率和错误否定率由7.50%和12.30%下降到3.60%和9.20%,保障温室环境满足作物生长对温度、湿度和光照的要求。 展开更多
关键词 温室 智能控制 温度 湿度 太阳辐射 信息物理系统 事件晶格 分层有限状态机
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