copy and paste this google map to your website or blog!
Press copy button and paste into your blog or website.
(Please switch to 'HTML' mode when posting into your blog. Examples: WordPress Example, Blogger Example)
Importance of Humidity Control During Drying - Yokogawa Humidity affects the dryness of the solids with which it comes into contact Therefore, humidity control is crucial for final product quality in drying processes such as in food manufacturing, tobacco production, and malt drying
Control of multi-energy drying system: Optimal weighted combination . . . In order to monitor the moisture content accurately and improve the drying uniformity of the same batch of materials, an online moisture monitoring approach based on optimal weighted combination model (OWCM) was developed, and a fuzzy control strategy of wind speed compensation was established for multi-field coexistence
Study of Moisture Sensors’ Response to Drying Cycles of Soil The objective of this research was to study response of these sensors within normal (up to 50% of available moisture depletion) drying cycle of soil so as to effectively use them for landscape irrigation control
Humidity Effects in Solids Drying Processes - SAGE Journals Humidity has a major efect on dryer performance and ability to meet quality specifications, par-ticularly for convective dryers Humidity calculations using a psychrometric chart give an excellent short-cut method for dryer sizing
The impact of non-contact moisture analyzers on production quality and . . . Online NIR moisture gauges offer the ability to measure the moisture of a conveyor transporting clay powder to later stages of production Most companies have found success positioning the gauge immediately after a conveyor change, allowing accurate moisture analysis of freshly turned products
In-line moisture monitoring in drying operations – NWGD For inline product moisture content, there is a choice between near infrared monitoring of the surface moisture and the high-frequency microwave sensors for the whole product moisture content
A Review of the Measurement and Control Technologies for the Critical . . . This requires advanced sensor technology and automatic control technology, real-time monitoring of material temperature and humidity changes, automatic adjustment of microwave power, heating time ventilation, and other key parameters, to achieve precise control of the microwave drying process
Grain moisture monitoring: Tools and techniques for optimal drying . . . Monitoring: Moisture sensors and automated control systems allow for adjusting fan speed and heater output based on moisture levels Benefits: In-bin systems are highly efficient and reduce handling, but monitoring is crucial to avoid uneven drying or hot spots that could lead to spoilage