超声波加湿器
超声波加湿器的相关文献在1990年到2022年内共计436篇,主要集中在建筑科学、轻工业、手工业、电工技术
等领域,其中期刊论文93篇、会议论文2篇、专利文献134080篇;相关期刊52种,包括现代交际、企业文明、中国高新技术企业等;
相关会议2种,包括第十二届全国暖通空调技术信息网大全、2017年中国通信能源会议 等;超声波加湿器的相关文献由479位作者贡献,包括何鲁敏、李建国、李建惠等。
超声波加湿器—发文量
专利文献>
论文:134080篇
占比:99.93%
总计:134175篇
超声波加湿器
-研究学者
- 何鲁敏
- 李建国
- 李建惠
- 陈浪铭
- 徐杰
- 王辉
- 艾耀平
- 陈勇
- 何国坚
- 刘建雄
- 彭仁宾
- 曾文礼
- 朱红峰
- 李一峰
- 赖伴来
- 郑雪莲
- 陈辉
- 刘超
- 徐东禛
- 敬仕林
- 黄进成
- 丛巍
- 何文培
- 周挺
- 庞亚鹏
- 李凯
- 梁旭东
- 王红胜
- 罗毅
- 许国成
- 钟石刚
- 付洪武
- 卢少权
- 尹发跃
- 张云
- 张伟
- 张燃
- 方宏云
- 朴喜千
- 杨义根
- 杨军
- 林振华
- 梁海权
- 欧阳林波
- 潘浩斌
- 王驷壮
- 郑丰周
- 陈双超
- 陈楚娇
- 丁永生
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李鑫鑫;
邓佳
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摘要:
秋冬季节天气干燥人们都会选用加湿器来加湿空气,但是超声波加湿器却是隐藏着巨大的危险因素.本文通过利用安全工程中的预先危险分析(PreliminaryHazardAnalysis,简称PHA)方法,对系统中的危险源,出现的条件及可能造成的后果进行分析.用以指导人们怎样更加安全的使用超声波加湿器,避免发生事故和危及健康.
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蔡君巍1;
尚昆1;
徐传彩1
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摘要:
针对部分空调缺少等焓加湿手段的现象,比较了气水加湿和超声波加湿的优缺点后,制定了超声波加湿器的改造方案,充分发挥超声波加湿器雾化效果好、颗粒小、设备锈蚀小的特点,实现了保证温湿度指标和节能降耗的目标。
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刘纪达;
孙洛浦
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摘要:
针对近年来超声波加湿器火灾起数不断攀升这一现象,分析了超声波加湿器的火灾危险性,为火灾调查和火灾防控工作提供建议.通过介绍超声波加湿器的结构及工作原理,结合仪器的特点和使用方法,总结可能诱发火灾的原因.总结出超声波加湿器使用中主要存在的火灾隐患,包括:产品质量安全隐患、设备老化故障、使用维护不当及摆放位置不当等.提出了正确选购超声波加湿器、选择适宜的工作条件与工作环境、及时进行维护与保养等预防措施,为超声波加湿器的安全使用提供参考.
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陈松鹏;
陈松;
吴奇洲
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摘要:
Humidifier has been commonly used in the market, the existence of single function, stay in the manual adjustment of the working state, no detection of temperature and humidity, humidification control accuracy is not high, unable to realize dry fire alarm, no liquid crystal display and so on. The stc90c51 SCM control chip, KeiluVision4 using the C programming language based on, through DHT11 temperature and humidity sensor circuit of environmental temperature and humidity were detected. The TFT-2.4- R61526-8Pin 2.4-inch screen of real-time data display, range of temperature and humidity in the initialization can be by an external control settings (independent keyboard) unit of the van Wai adjust settings.%市场上现有的加湿器存在功能单一、加湿控制精度不高、无温湿度检测、无法实现干烧告警等不足.本文以STC90C51单片机为控制芯片,基于KeiluVision4采用C语言编程,通过DHT11温湿传感器电路对环境温湿度进行检测,经2.4吋液晶彩屏显示实时数据,自动控制超声波加湿器的工作状态,实现智能调控和人性化的定量设置.
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WANG Xiaohua;
XIAO Honglang;
REN Juan;
CHENG Yiben;
YANG Qiu
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摘要:
Atmospheric water absorption by plants has been explored for more than two centuries, and the aerial parts of plants, particularly the leaves of certain species, have been demonstrated to have an ability to absorb and utilize saturated atmospheric water such as fog, dew and condensed water. So far, however, there have been few studies on the aerial parts of desert plants in their absorption of unsaturated water from the atmosphere. This study presents an ultrasonic humidification fluorescent tracing method of detecting unsaturated atmospheric water absorption by the aerial parts of desert plants. We constructed an organic glass room based on the sizes of field plants. Then, the aboveground parts of the plants were humidified in the sealed glasshouse using an ultrasonic humidifier containing fluorescent reagents. The humidity and wetting time were controlled by turning on or off the humidifier according to the reading of a thermo-hygrometer suspended in the glasshouse. Fluorescence microscopy was employed to observe these plant samples. This method can generate unsaturated atmospheric water vapor and incorporate other fluorescent reagents or water-soluble chemical reagents for gasified humidification. In addition, it can identify plant parts that absorb unsaturated atmospheric water from the air, detect water absorption sites on the surface of leaves or tender stems, and determine the ability of tissues or microstructure of aerial parts to absorb water. This method provides a direct visual evidence for the inspection of leaf or tender stem microstructure in response to unsaturated atmospheric water absorption. Moreover, this method shows that aqueous pores in the cuticles of leaves or tender stems of desert plants are large enough to allow the passage of ionic fluorescent brightener with a molecular weight of up to 917 g/mol. Thus, this paper provides an important approach that explores the mechanism by which desert plants utilize unsaturated atmospheric water.
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王彦斌
- 《2017年中国通信能源会议》
| 2017年
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摘要:
从理论和实践两个方面讨论利用超声波加湿器对机房专用空调传统加湿器进行改造,并通过现场测试获得大量一手数据,证明超声波加湿器替代传统加湿器具备可观的节能效果,并且将机房湿度很好地控制在40%~50%.