Relevant bibliographies by topics / Methods of moisture measurement

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Academic literature on the topic 'Methods of moisture measurement'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Methods of moisture measurement"

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Brabec, Daniel, Mayra Perez-Fajardo, Hulya Dogan, Kathleen Yeater, and Elizabeth Maghirang. "Effectiveness of Modified 1-Hour Air-Oven Moisture Methods for Determining Popcorn Moisture." Applied Engineering in Agriculture 34, no. 3 (2018): 617–21. http://dx.doi.org/10.13031/aea.12621.

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Abstract. Two of the most commonly used approved grain moisture air-oven reference methods for corn are the air oven method ASAE S352.2, which requires long heating time (72 h) at 103 ± 1°C for unground samples, and the AACC 44-15.02 air-oven method, which dries a ground sample for 1 h at 130 ± 1°C, but there is specific moisture measurement method for popcorn. The AACC 44-15.02 recommends a two-stage drying method for grain over 13%. But this involves more handling and drying time. The objective of this study was to develop an air-oven procedure for popcorn that requires short heating time (1h or less) based on existing reference method for ground corn (AACC 44-15.02). In the process of procedure development, two laboratory mills (Wiley Mini-Mill and Perten 3303 Mill) were optimized for mesh screen size and mill gap settings. The approved AACC method recommends using a 20-mesh screen fitted to the Wiley Mill, which failed, with wires breaking during the grinding process, possibly due to the hard nature of popcorn and/or clogging. It was replaced with the 10-mesh screen which produced larger particle size distribution with ~73% greater than 840 µm. The Perten Mill 3303 was set to gap No. 3 which produced ~68% particles that were greater than 840 µm. Additionally, this study evaluated the effectiveness of single-stage moisture measurement with the 14.5% and 16% moisture popcorn samples. Using the proposed procedure, four varieties of popcorn were tested at three different moisture contents (13%, 14.5%, and 16%). The method using the Wiley grinder and 60 min. heating time yielded oven moisture values which were statistically (p<0.05) similar to the approved ASAE S352.2 and AACC 44-15.02 (72-h, whole grain method). The moisture content of ground samples obtained from the Perten 3303 Mill had elevated moisture measurements and bias across the moisture levels when dried for 60 min. A reduction in heating time to 50 min. resulted in Perten mill samples yielding statistically (p<0.05) similar moisture measurements with the reference 72-h, whole grain method. Keywords: Air-oven, Drying, Popcorn.
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Li, Peng Fei, Le Sun, and Jun Feng Jing. "Methods Research and Analysis of Non-Contact Measurement to the Moisture Content of Textile Material." Advanced Materials Research 562-564 (August 2012): 1205–8. http://dx.doi.org/10.4028/www.scientific.net/amr.562-564.1205.

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This paper introduces a microwave technology in measurement applications of textile moisture, and the humidity measurement principle is analyzed. This paper designs a non-contact textile material moisture content measurement system based on microwave. According to the result of the fitting line, the moisture content in this method for cotton cloth, denim and fine cotton cloth in the effective measurement range is 30~50% respectively, 30~55%, 35~70%.
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Saïd, M. Nady A. "Measurement Methods of Moisture in Building Envelopes – A Literature Review∗." International Journal of Architectural Heritage 1, no. 3 (2007): 293–310. http://dx.doi.org/10.1080/15583050701476754.

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Edokossi, Komi, Andres Calabia, Shuanggen Jin, and Iñigo Molina. "GNSS-Reflectometry and Remote Sensing of Soil Moisture: A Review of Measurement Techniques, Methods, and Applications." Remote Sensing 12, no. 4 (2020): 614. http://dx.doi.org/10.3390/rs12040614.

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The understanding of land surface-atmosphere energy exchange is extremely important for predicting climate change and weather impacts, particularly the influence of soil moisture content (SMC) on hydrometeorological and ecological processes, which are also linked to human activities. Unfortunately, traditional measurement methods are expensive and cumbersome over large areas, whereas measurements from satellite active and passive microwave sensors have shown advantages for SMC monitoring. Since the launch of the first passive microwave satellite in 1978, more and more progresses have been made in monitoring SMC from satellites, e.g., the Soil Moisture Active and Passive (SMAP) and Soil Moisture and Ocean Salinity (SMOS) missions in the last decade. Recently, new methods using signals of opportunity have been emerging, highlighting the Global Navigation Satellite Systems-Reflectometry (GNSS-R), which has wide applications in Earth’s surface remote sensing due to its numerous advantages (e.g., revisiting time, global coverage, low cost, all-weather measurements, and near real-time) when compared to the conventional observations. In this paper, a detailed review on the current SMC measurement techniques, retrieval approaches, products, and applications is presented, particularly the new and promising GNSS-R technique. Recent advances, future prospects and challenges are given and discussed.
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Weninger, Thomas, Gernot Bodner, Janis Kreiselmeier, et al. "Combination of Measurement Methods for a Wide-Range Description of Hydraulic Soil Properties." Water 10, no. 8 (2018): 1021. http://dx.doi.org/10.3390/w10081021.

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Established measurement methods for hydraulic soil properties cover a limited soil moisture range. Simulations of soil water dynamics based on such observations are therefore rarely representative for all conditions from saturation to drought. Recent technical developments facilitate efficient and cheap collecting of soil water characteristics data, but the quantitative benefit of extended measurement campaigns has not been adequately tested yet. In this study, a combination of four methods to measure water retention and hydraulic conductivity at different moisture ranges was applied. Evaporation method, dewpoint psychrometry, hood infiltrometer experiments, and falling head method for saturated conductivity were conducted at two experimental sites in eastern Austria. Effects of including the particular methods in the measurement strategy were examined by visual evaluation and a 1D-modelling sensitivity study including drainage, infiltration and drought conditions. The evaporation method was considered essential due to its broad measurement range both for water retention and hydraulic conductivity. In addition to that, the highest effect on simulated water balance components was induced by the inclusion of separate conductivity measurements near saturation. Water content after three days of drainage was 15 percent higher and the transpiration rate in a drought period was 22 percent higher without near-saturated conductivity measurements. Based on relative comparisons between different combinations, we suggested combining evaporation method and hood infiltrometer experiments as the basis for representative predictions of soil water dynamics.
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Nath K., Divya, and Prabhu Ramanathan. "Non-destructive methods for the measurement of moisture contents – a review." Sensor Review 37, no. 1 (2017): 71–77. http://dx.doi.org/10.1108/sr-01-2016-0032.

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Purpose The purpose of this paper is to analyze the moisture measurement techniques presently available, as accurate determination of the moisture content (MC) of grains or any food items at right time is very important for its processing, marketing and storing. Design/methodology/approach There are basically two types of MC measurement techniques – destructive method and non-destructive method. In the time-consuming destructive method, cleaning of the food items is done and shells of food items like peanuts are removed for which man power is required and so the technique becomes costly. A literature review of the existing non-destructive methods has been done, and the methodology of each approach is explained with the figure. The less time-consuming non-destructive technique used to measure MC require less man power, as grains or food items can be directly used without any process like cleaning or crushing so that the technique become economic. Findings Most of the techniques used magnetic or electric properties to measure the MC indirectly. The problem with existing non-destructive technique is that measurement of MC uses only few numbers or grams of grains or food items at a time. Research limitations/implications The farmers’ produce large quantity of grains. The small quantity of grains cannot be the representative sample for whole grains produced by the farmers. Most of the techniques use only small quantity of grains or food items at a time to measure the MC which is not accurate and representative of the produce. Also, the techniques are not simple and easily available. The cost of the techniques or arrangement to measure the MC is not reasonable. Social implications Most of the farmers in the developing countries are financially backward. To store the agricultural produce, MC of the commodities is a key factor influencing the quality of the storage. Measurement of the MC of the seeds is thus very important for the farmers. Originality/value This paper is a review of the previous research that happened in this area, and it would help the researcher to know the techniques already been used. To the knowledge of the authors, the review of the existing moisture measurement of seeds/agricultural commodities is available in the literature.
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Vertaľ, Marián, Dušan Katunský, and Jozef Šimiček. "Transient Pulse Method for Measuring of Heat Conductivity of Autoclaved Aerated Concrete." Advanced Materials Research 899 (February 2014): 466–69. http://dx.doi.org/10.4028/www.scientific.net/amr.899.466.

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The heat conductivity, specific heat and bulk density are the basic material parameters and thus indispensable. There are numbers of methods used for measurement of heat conductivity. However, the non-stationary (transient pulse method) measurements methods are preferred for description of heat conductivity moisture dependence. This article discusses on the establishment dependence of heat conductivity on water content for selected porous building materials by using non stationary measurement methods. Dependence of the thermal conductivity on the water content is necessary for coupled heat, air and moisture (HAM) simulation in building construction.
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Schunk, C., B. Ruth, M. Leuchner, C. Wastl, and A. Menzel. "Comparison of different methods for the in situ measurement of forest litter moisture content." Natural Hazards and Earth System Sciences Discussions 3, no. 6 (2015): 3733–60. http://dx.doi.org/10.5194/nhessd-3-3733-2015.

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Abstract. Dead fine fuel (e.g. litter) moisture content is an important parameter for both forest fire and ecological applications as it is related to ignitability, fire behavior as well as soil respiration. However, the comprehensive literature review in this paper shows that there is no easy-to-use method for automated measurements available. This study investigates the applicability of four different sensor types (permittivity and electrical resistance measuring principles) for this measurement. Comparisons were made to manual gravimetric reference measurements carried out almost daily for one fire season and overall agreement was good (highly significant correlations with 0.792 ≦ r ≦ 0.947). Standard deviations within sensor types were linearly correlated to daily sensor mean values; however, above a certain threshold they became irregular, which may be linked to exceedance of the working ranges. Thus, measurements with irregular standard deviations were considered unusable and calibrations of all individual sensors were compared for useable periods. A large drift in the sensor raw value-litter moisture-relationship became obvious from drought to drought period. This drift may be related to installation effects or settling and decomposition of the litter layer throughout the fire season. Because of the drift and the in situ calibration necessary, it cannot be recommended to use the methods presented here for monitoring purposes. However, they may be interesting for scientific studies when some manual fuel moisture measurements are made anyway. Additionally, a number of potential methodological improvements are suggested.
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Schunk, C., B. Ruth, M. Leuchner, C. Wastl, and A. Menzel. "Comparison of different methods for the in situ measurement of forest litter moisture content." Natural Hazards and Earth System Sciences 16, no. 2 (2016): 403–15. http://dx.doi.org/10.5194/nhess-16-403-2016.

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Abstract. Dead fine fuel (e.g., litter) moisture content is an important parameter for both forest fire and ecological applications as it is related to ignitability, fire behavior and soil respiration. Real-time availability of this value would thus be a great benefit to fire risk management and prevention. However, the comprehensive literature review in this paper shows that there is no easy-to-use method for automated measurements available. This study investigates the applicability of four different sensor types (permittivity and electrical resistance measuring principles) for this measurement. Comparisons were made to manual gravimetric reference measurements carried out almost daily for one fire season and overall agreement was good (highly significant correlations with 0.792 < = r < = 0.947, p < 0.001). Standard deviations within sensor types were linearly correlated to daily sensor mean values; however, above a certain threshold they became irregular, which may be linked to exceedance of the working ranges. Thus, measurements with irregular standard deviations were considered unusable and relationships between gravimetric and automatic measurements of all individual sensors were compared only for useable periods. A large drift in these relationships became obvious from drought to drought period. This drift may be related to installation effects or settling and decomposition of the litter layer throughout the fire season. Because of the drift and the in situ calibration necessary, it cannot be recommended to use the methods presented here for monitoring purposes and thus operational hazard management. However, they may be interesting for scientific studies when some manual fuel moisture measurements are made anyway. Additionally, a number of potential methodological improvements are suggested.
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Slávik, Čekon, and Štefaňák. "A Nondestructive Indirect Approach to Long-Term Wood Moisture Monitoring Based on Electrical Methods." Materials 12, no. 15 (2019): 2373. http://dx.doi.org/10.3390/ma12152373.

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Wood has a long tradition of use as a building material due its properties and availability. However, it is very sensitive to moisture. Wood components of building structures basically require a certain level of moisture protection, and thus moisture monitoring to ensure the serviceability of such components during their whole lifespan while integrated within buildings is relevant to this area. The aim of this study is to investigate two moisture monitoring techniques promoting moisture safety in wood-based buildings (i.e., new structures, as well as renovated and protected buildings). The study is focused on the comparison of two electrical methods that can be employed for the nondestructive moisture monitoring of wood components integrated in the structures of buildings. The main principle of the two presented methods of the moisture measurement by electric resistance is based on a simple resistor–capacitor (RC) circuit system improved with ICM7555 chip and integrator circuit using TLC71 amplifier. The RC-circuit is easier to implement thanks to the digital signals of the used chip, whilst the newly presented integration method allows faster measurement at lower moisture contents. A comparative experimental campaign utilizing spruce wood samples is conducted in this relation. Based on the results obtained, both methods can be successfully applied to wood components in buildings for moisture contents above 8%.
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Dissertations / Theses on the topic "Methods of moisture measurement"

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Howell, C. L. (Carolyn Louise). "Comparison of different methods by means of which water holding capacity of soil is determined and the prediction of water holding capacity from soil texture in coarse-textured soil." Thesis, Stellenbosch : Stellenbosch University, 2004. http://hdl.handle.net/10019.1/49890.

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Thesis (MScAgric)--University of Stellenbosch, 2004.<br>ENGLISH ABSTRACT: Irrigation scheduling is one of the most important cultural practices in irrigated vineyards. Water holding capacity of soil is arguably therefore one of the most important characteristics of a soil as it determines how much water can be made available to the plant. The measurement of water holding capacity of soils is time consuming and costly. In situ determinations are often impractical to determine. For routine determinations, water holding capacity is therefore determined on disturbed samples. Such a method for example is the rubber ring method. A great deal of criticism surrounds this rubber ring method and results are often questioned. The objectives of this study were therefore to determine what the relationship was between undisturbed and disturbed samples and to determine whether compacted samples could give a more accurate representation of the water holding capacity of soil. Soil textural factors influencing the volumetric water content of undisturbed, rubber ring and compacted samples at 5, 10 and 100 kPa were investigated. In addition, soil textural properties influencing water holding capacity of the respective samples between 5 and 100 kPa and 10 and 100 kPa were investigated. The final objective of the study was to develop simple models to predict the volumetric water content and water holding capacity of soil. Undisturbed and disturbed soil samples were taken at various localities to ensure a wide range of textures. Water holding capacity of undisturbed and disturbed samples was determined at ARC Infruitec-Nietvoorbij using the standard air pressure and ceramic plate technique and the routine rubber ring method respectively. Soil samples were also compacted to a bulk density of approximately 1.5 g.cm-3 as a further treatment for determination of water holding capacity using the air pressure and ceramic plate technique. To investigate aspects of soil texture that could possibly influence volumetric water content of the soil, correlations were done between different texture components and volumetric water content of undisturbed, rubber ring and compacted samples at 5, 10 and 100 kPa. In order to determine the effect of texture on water holding capacity of the soil, correlations were drawn between texture components and water holding capacity of undisturbed, rubber ring and compacted samples between matric potential ranges 5 and 100 kPa and 10 and 100 kPa. The results from this study were used to develop models to predict volumetric soil water content and water holding capacity of soils for a range of soils. Volumetric water content of rubber ring samples at 5 kPa was more than the volumetric water content of undisturbed samples at 5 kPa. The volumetric water content of rubber ring samples at 5 kPa and the volumetric water content of undisturbed samples at 5 kPa was correlated by 87%. Volumetric water content of compacted samples at 5 kPa had a 85% degree of correlation with the volumetric water content of undisturbed samples. At 10 kPa, the correlation between volumetric water content determined using rubber ring samples and undisturbed samples was 77%. This was identical to the correlation between volumetric water content of compacted samples at 10 kPa and undisturbed samples. At 100 kPa, most of the rubber ring samples' volumetric water content fell below the 1:1 line of volumetric water content of undisturbed samples. The volumetric water content of all the compacted samples was higher than that of the undisturbed samples. Water holding capacity of all the rubber ring samples between 5 and 100 kPa was greater than the water holding capacity of the undisturbed samples between 5 and 100 kPa. Rubber ring samples therefore generally overestimated the water holding capacity of the soil. The water holding capacity of most of the rubber ring samples between 10 and 100 kPa was greater than the water holding capacity of the undisturbed samples. In contrast, the water holding capacity of compacted samples between 5 and 100 kPa was less than the water holding capacity of undisturbed samples between 5 and 100 kPa. Water holding capacity of compacted samples was therefore underestimated. The results from this study confirmed that the influence of clay and silt content on volumetric water content of undisturbed, rubber ring and compacted samples increased as the suction on the respective samples is increased. The influence of fine sand content on volumetric water content of undisturbed, rubber ring and compacted samples decreased with an increase in matric potential to 100 kPa. Medium sand content of undisturbed, rubber ring and compacted samples had the greatest influence of all the textural components on the volumetric water content of the respective samples at 5 kPa and 10 kPa. Water holding capacity of undisturbed, rubber ring and compacted samples between 5 and 100 kPa was greatly influenced by the fine sand content of the samples. Medium sand content of the samples also had an influence on the water holding capacity thereof. To predict the volumetric water content of undisturbed samples at 5, 10 and 100 kPa, the independent variables were fine sand content, square root of medium sand content and In of medium sand content. In the case of models to predict the volumetric water content of rubber ring samples at 5, 10 and 100 kPa, the same variables were used as independent variables. Additional variables such as silt content, the In of silt content, square root of clay plus silt content and the medium sand content. To predict the volumetric water content of compacted samples at 5, 10 and 100 kPa the terms used were silt content, clay plus silt content, the e-clay plus silt content. medium sand content and the square root of medium sand content. The models to predict volumetric water content of rubber ring samples gave the best correlation with the actual volumetric water content of rubber ring samples. The final models to predict the water holding capacity of all the samples between 5 and 100 kPa and 10 and 100 kPa used only fine and medium sand parameters as independent variables. Soil textural components do play an important role in determining the volumetric water content of undisturbed, rubber ring and compacted samples at 5, 10 and 100 kPa. The magnitude of the water holding capacity between 5 and 100 kPa and 10 and 100 kPa is also influenced by soil texture. The models developed to predict the volumetric water content of samples at 5, 10 and 100 kPa and the magnitude of the water holding capacity between 5 and 100 kPa and 10 and 100 kPa could be very useful. Both time and money can potentially be saved. Models that can be highly recommended are the models generated for the undisturbed samples. These are: At 5 kPa, VWCu = 0.47259 - 0.04712 medium sando.s At 10 kPa, VWCu = 0.41292 - 0.04221 medium sandos At 100 kPa, VWCu = 0.48080 - 0.00254 fine sand - 0.0865 In medium sand Between 5 and 100 kPa, WHCu = -29.523 + 3.394 fine sand Between 10 and 100 kPa, WHCu = -891.794 + 232.326 In fine sand + 38.006 In medium sand<br>AFRIKAANSE OPSOMMING: Besproeiingskedulering is een van die belangrikste wingerdverbouingspraktyke. Waterhouvermoë bepaal hoeveel water beskikbaar gestel kan word aan die plant en daarom is dit een van die belangrikste eienskappe van 'n grond. Die meting van waterhouvermoë van grond is tydsaam en duur. Boonop is in situ bepalings dikwels onprakties om te bepaal. Waterhouvermoë word dus bepaal op versteurde monsters vir roetine ontledings. 'n Voorbeeld van so 'n metode is die rubberring metode. Daar bestaan groot kritiek teenoor hierdie rubberring metode en resultate word dikwels betwyfel deur die landboubedryf. Die doel van hierdie studie was dus om te bepaal wat die verwantskap is tussen onversteurde monsters en rubberring monsters asook om te bepaal of gekompakteerde monsters 'n meer akkurate aanduiding sou gee as onversteurde monsters van die waterhouvermoë van die grond. Grondtekstuur faktore wat die volumetriese waterinhoud van onversteurde monsters, rubberring monsters en gekompakteerde monsters by 5, 10 and 100 kPa beïnvloed, was ondersoek. Grondtekstuur faktore wat waterhouvermoë van die onderskeie monsters tussen 5 en 100 kPa en tussen 10 en 100 kPa beïnvloed, was ook ondersoek. Die finale doelwit van die studie was om eenvoudige modelle te ontwikkel vir die voorspelling van volumetriese waterinhoud en waterhouvermoë van grond. Onversteurde grond monsters en grond vir versteurde monsters is by verskeie lokaliteite geneem om 'n wye reeks teksture te verkry. Waterhouvermoë van onversteurde monsters is bepaal by LNR Infruitec- Nietvoorbij met die standaard drukplaat tegniek. Waterhouvermoë van versteurde grond is bepaal met die roetine rubberring metode van LNR Infruitec-Nietvoorbij. Grond was ook gekompakteer tot 'n bulkdigtheid van ongeveer 1.5 g.cm-3 en daarna is die waterhouvermoë bepaal by die LNR Infruitec- Nietvoorbij met die standaard drukplaat tegniek. Om aspekte van grondtekstuur, wat moontlik die volumetriese waterinhoud van grond kan beïnvloed te ondersoek, is korrelasies tussen verskeie tekstuur komponente en die volumetriese waterinhoud van onversteurde monsters, rubberring monsters en gekompakteerde monsters by 5, 10 en 100 kPa bepaal. Om te bepaal watter tekstuur komponente waterhouvermoë van die grond kan bepaal, is korrelasies getrek tussen tekstuur komponente en waterhouvermoë van onversteurde monsters, rubberring monsters en gekompakteerde monsters tussen 5 en 100 kPa en tussen 10 en 100 kPa. Die data is verwerk met die SAS uitgawe 6.12 (SAS, 1990) om modelle vir die voorspelling van volumetriese waterinhoud en waterhouvermoë van grond met behulp van maklik kwantifiseerbare grondtekstuur veranderlikes te ontwikkel. Die volumetriese waterinhoud van rubberring monsters by 5 kPa was meer as die volumetriese waterinhoud van onversteurde monsters by 5 kPa. Die volumetriese waterinhoud van rubberring monsters by 5 kPa en die volumetriese waterinhoud van onversteurde monsters by 5 kPa is gekorreleerd met 87%. Die volumetriese waterinhoud van gekompakteerde monsters by 5 kPa het 'n korrelasie van 85% met volumetriese waterinhoud van onversteurde monsters getoon. By 10 kPa, was die graad van korrelasie tussen volumetriese waterinhoud bepaal met rubberring monsters en onversteurde monsters, 77%. Dit was omtrent dieselfde as die graad van korrelasie tussen volumetriese waterinhoud van gekompakteerde monsters en onversteurde monsters by 10 kPa. By 100 kPa het die meeste van die rubberring monsters se volumetriese waterinhoud onderkant die 1:1 lyn van die volumetriese waterinhoud by 100 kPa van al die onversteurde monsters. Die volumetriese waterinhoud van al die gekompakteerde monsters was hoër as die van die onversteurde monsters. Die waterhouvermoë van al die rubberring monsters tussen 5 en 100 kPa was groter as die van die onversteurde monsters tussen 5 en 100 kPa. Die rubberring monsters het dus oor die algemeen die grootte van die waterhouvermoë oorskry. Die waterhouvermoë van die meeste van die rubberring monsters tussen 10 en 100 kPa was groter as die waterhouvermoë van die onversteurde monsters. Die waterhouvermoë van gekompakteerde monsters tussen 5 en 100 kPa was minder as die waterhouvermoë van die onversteurde monsters tussen 5 en 100 kPa. Die waterhouvermoë van gekompakteerde grondmonsters is dus onderskat. Die resultate van hierdie studie het die invloed van klei- en slik- inhoud op die volumetriese waterinhoud van onversteurde monsters, rubberring monsters en gekompakteerde monsters bevestig. Die invloed van klei en sand op die volumetriese waterinhoud van onversteurde monsters, rubberring monsters en gekompakteerde monsters het toegeneem soos die matriks potensiaal op die onderskeie monsters toegeneem het. Die invloed van fynsand op die volumetriese waterinhoud van onversteurde monsters, rubberring monsters en gekompakteerde monsters was die grootste by 5 kPa en het afgeneem tot by 100 kPa. Die mediumsand inhoud van onversteurde monsters, rubberring monsters en gekompakteerde monsters het van al die tekstuur komponente die grootste invloed op die volumetriese waterinhoud van al die monsters by 5 kPa en 10 kPa gehad. Die waterhouvermoë van onversteurde monsters, rubberring monsters en gekompakteerde monsters tussen 5 en 100 kPa is grootliks beinvloed deur die fynsand inhoud van die monsters. Die mediumsand inhoud van die monsters het ook 'n invloed gehad op die waterhouvermoë daarvan. Om die volumetriese waterinhoud van onversteurde monsters by 5, 10 en 100 kPa te voorspel, is onafhanklike veranderlikes soos fynsand inhoud, vierkantswortel van mediumsand inhoud en In van mediumsand inhoud bepaal. In die geval van modelle om die volumetriese waterinhoud van rubberring monsters by 5, 10 en 100 kPa te voorspel, is dieselfde veranderlikes gebruik as onafhanklike veranderlikes. Addisionele veranderlikes soos slik inhoud, In van slik inhoud, die vierkantswortel van die klei plus slik inhoud en die mediumsand inhoud is ook gebruik. Om die volumetriese waterinhoud van gekompakteerde monsters by 5, 10 en 100 kPa te voorspel, is die terme slik inhoud, klei plus slik inhoud, e-klei plus slik inhoud, mediumsand inhoud en vierkantswortel van mediumsand inhoud gebruik. Die modelle om volumetriese waterinhoud van rubberring samples te voorspel het die akkuraatste voorspellings gegee. Die finale modelle, om waterhouvermoë van alle monsters tussen 5 en 100 kPa en tussen 10 en 100 kPa te bepaal, het slegs fyn en mediumsand as onafhanklike veranderlikes gebruik. Grondtekstuur komponente speel dus 'n belangrike rol in die volumetriese waterinhoud van onversteurde monsters, rubberring monsters en gekompakteerde monsters by 5, 10 en 100 kPa. Die grootte van die waterhouvermoë tussen 5 en 100 kPa en tussen 10 en 100 kPa is ook beinvloed deur die grondtekstuur. Die modelle wat ontwikkel is om die volumetriese waterinhoud van monsters by 5, 10 en 100 kPa en die grootte van die waterhouvermoë tussen 5 en 100 kPa en tussen 10 and 100 kPa te voorspel, kan baie waardevol wees. Tyd en geld kan potensieel bespaar word. Die modelle wat hoogs aanbevole is, is die modelle vir onversteurde monsters. Die modele is: By 5 kPa, VWlo = 0.47259 - 0.04712 rnedlumsand?" By 10 kPa, VWlo = 0.41292 - 0.04221 mediumsando.s By 100 kPa, VWlo = 0.48080 - 0.00254 fynsand - 0.0865 In mediumsand Tussen 5 en 100 kPa, WHVo = -29.523 + 3.394 fynsand Tussen 10 en 100 kPa, WHVo = -891.794 + 232.326 In fynsand + 38.006 In mediumsand
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2

Streicher, John James. "A new method to compare radiation view factors and a study of bare soil evaporation using microlysimeters." Thesis, University of British Columbia, 1986. http://hdl.handle.net/2429/26645.

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In Chapter 1, a numerical computer technique is developed to determine radiation view factors between planar surfaces whose geometry is sufficiently regular so as to be defined by algebraic equations. This technique does not require spherical, cylindrical or rectangular symmetry, although such symmetries may be exploited when they exist. Once the essential geometric problem is formulated, enough generality can be built into the solutions so that certain "new" configurations, derived from translations or rotations of one surface relative to the other, can be solved as a matter of course. In Chapter 2, a model of bare soil evaporation is tested against measured flux from lysimeters obtained in the Peace River region of British Columbia and Alberta. Hydraulic diffusivity characteristics, measured from separate, adjacent field samples, were used in the model. Certain procedural difficulties in the measurement of hydraulic diffusivity are examined in detail, and recommendations for improvement are made. The degree to which evaporation simulation agrees with measured flux is discussed.<br>Land and Food Systems, Faculty of<br>Graduate
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Nilsson, Daniel. "Bioenergy from Swedish forests : A Study of extraction methods, quality and effects for forest owners." Licentiate thesis, Linnéuniversitetet, Institutionen för skog och träteknik (SOT), 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:lnu:diva-98150.

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The forest constitutes a very important element of renewable natural resources and makes a significant contribution to the Swedish bioeconomy. Biofuels are Sweden’s largest source of energy; of all the energy we use, 32% comes from biofuels, and of this approximately 85% comes from the forest and the forestry sector. In spite of this, logging residues constitute only a small component, compared to for example byproducts from sawmills and pulpindustry, and there is considered to be great potential for increasing their use. In 2019 the Swedish Forestry Agency issued new recommendations for logging residue harvest and ash recycling. This was a further development of the 2008 recommendations, which formed the foundation for how forest fuel producers work today, and were based on several decades of research into, for example, the impact on forest productivity and technological development of machinery. This practice of logging residue harvest aims to yield a dry and defoliated fuel where the needles are left at the clear felled area. However, if we are to increase the use of green renewable energy from forestry, it is very important to understand how different procurement systems affect the handling and storability of fuels from a quality perspective. It is also of great importance to understand, from the forest owners’ perspective, how removal of additional products from forestry influences nutritional balance and long-term productivity. If harvesting of logging residues does not affect long-term productivity, it is up to small-scale private forest owners to decide if removal of logging residues will be performed on their land. This thesis addresses some of these issues regarding removal of logging residues from the point of tree harvest up to the point of delivery to the energy conversion industry when the fuel chips are measured. Regarding different methods of handling of logging residues, the traditional method – dry-stacking – was compared with the, fresh-stacking method. The logging residues investigated came from stands that mainly consisted of Norway spruce (Picea abies (L.) Karst). The loads investigated in Paper 3 also came from logging of spruce-dominated forests. Both methods aim to dry the logging residues to an acceptable moisture content for delivery to the energyconversion industry. For the later part in the supply chain, moisture content measurements of logging residues were compared during a winter and summer season. The results of the studies indicate that the two methods do not create results that differ from what is allowed by the Swedish Forestry Agency and that they are quite similar with respect to dry mass- and nutrient removal from the clearfelled area. The results also show that similar yields and distributions of material are obtained from the logging residues with different stacking methods; in addition, the final felling itself, combined with the work performed by the forwarder operator, has a greater impact on the result than the method chosen for residue stacking of the logging residues. For the individual clear-felled area and the individual forest owner the increased removal associated with freshstacked logging residue has no major impact, however from a national perspective this small increase in removed logging residues may yield a supplement of between 0.5 – 1 TWh of green energy annually. Regardless of treatment, the studies indicated that the delivered fuel chips will have similar characteristics. The moisture content measurement techniques currently in use are sufficiently accurate and reliable. However, if the forest owner is unlucky and an error in measurement occurs or comminution and delivery happens during an especially wet period they may suffer a significant financial loss; indeed, it is generally not under the individual forest owners’ control when the logging residues are comminuted and delivered.
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Andersson, Josefine, and Simon Svensson. "Mätning av fuktkvot i sammansatta KL-träelement." Thesis, Linnéuniversitetet, Institutionen för byggteknik (BY), 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:lnu:diva-76632.

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Fuktskador är ett problem som kan uppstå vid byggnation i trä om konstruktionen exponeras för nederbörd under byggtiden. Mätning av fuktkvoter i trä kan utföras med flera olika instrument och metoder. Syftet med arbetet är att studera fuktkvotsförändringar i korslimmade träelement som utsätts för långvarig nederbörd i laborationsmiljö. För att utveckla detta område har Linnéuniversitetet tillsammans med Saab utvecklat ett eget mätinstrument. Instrumentet mäter resistans i trä som jämförs med mätvärden från ett annat instrument vid namn Gigamodule. Det egenutvecklade sensorkortet är fortfarande under utveckling. Förutom i arbetets försöksuppställning testas instrumentet även i en byggnad i Växjö. För kontroll av mätresultat har fler metoder och instrument använts. Två modeller har använts som representerar detalj vid anslutning av väggelement-och mellanbjälklag. Båda modellerna har under lika lång tid varit nedsänkta i vattenbad. Försöksuppställningen har utförts mellan 19:e april och 18:e maj 2018. Mätningar och beräkningar har resulterat i jämförbara resultat. Skillnader i resultat utifrån träets fiberriktning har visats från flera instrument. KL-träelementen har uppvisat en god förmåga att trots höga fuktkvotsvärden torka ut och återgå mot normala värden under mätperioden.<br>Moisture related damage is an occurring problem in wood-based buildings if the material is exposed to rainfall during construction. Measurement of moisture content can be done with various instruments and methods. The purpose of the thesis is to study change in moisture content in cross-laminated-timber, with prolonged exposure to water in laboratory environment. To advance the field, the Linnaeus University has been developing a measurement instrument of their own in collaboration with the company Saab. The instrument measures electrical resistance in wood where the obtained values will be compared to similar measurements from a product named Gigamodule. The self-developed sensor card is still a product under development. In addition to the lab setting measurements the instrument was also installed in a local building in Växjö. To verify the result from the previously mentioned resistance measurers additional instruments and methods have been utilized. Two separate models have been used to represent the detail of the connection between the wall element and the joist. Both models have been submerged under water for an equal amount of time. The experimental setting took place between the 19th of April to the 18th of May 2018. The measurements and calculations have been resulting in values that can be the subject of internal evaluation. Difference in result based on the direction of the grain have been observed in several measurement methods. The CLT-elements demonstrated good drying properties despite periodically high moisture content and the wood indicate a return towards initial levels of moisture.
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Severo, Sergio Luiz Schubert. "Aquametria por micro-ondas." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2016. http://hdl.handle.net/10183/156505.

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A medida do teor de umidade de materiais resulta em ganhos econômicos e ambientais ao possibilitar o controle preciso da secagem de produtos agrícolas, de processos de cura e armazenagem, e reduzir perdas de material e consumo de energia. Tal medida pode ser feita através da interação de ondas eletromagnéticas nas frequências de micro-ondas. Apresenta-se o desenvolvimento histórico e o estado da arte dessa área da metrologia que é conhecida por aquametria por micro-ondas. Detalha-se o comportamento das ondas eletromagnéticas em dielétricos, o modelo de espalhamento nas interfaces das amostras, a relação entre a permissividade complexa e a umidade, métodos para a determinação da permissividade, instrumentos, sistemas e aspectos metrológicos da cadeia de medição para espectroscopia dielétrica. Dois novos métodos, com equações explícitas originais para a determinação da permissividade são obtidos. As novas equações resultam em incerteza menor que os métodos clássicos. Uma nova metodologia, através do método de Monte Carlo, é empregada para a avaliação das mesmas. Conclui-se que o desenvolvimento da aquametria passa, necessariamente, pelo aperfeiçoamento dos instrumentos e métodos para determinação da permissividade dos materiais.<br>The measurement of moisture content of materials results in economic and environmental gains. Monitoring drying and curing of materials prevents loss of products and waste of energy. This can be done through the interaction of electromagnetic waves at microwave frequencies. This dissertation presents the historical development and the state-of-the-art in aquametry, the behavior of electromagnetic waves in dielectrics, sample interface scattering model, the relationship between the complex permittivity and moisture, methods for determining permittivity, instruments and metrological aspects of the measurement chain, and some instruments for dielectric spectroscopy. Two new methods, capable of providing explicit equation for the permittivity, are obtained and the Monte Carlo method is applied to determine their uncertainty. The new equations have lower uncertainty than the classic methods. The general conclusion is that the development of instrumentation and techniques in aquametry must be based in improvements in permittivity measurement.
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Burešová, Eliška. "Analýza metod měření vlhkosti ve stavebních materiálech." Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2021. http://www.nusl.cz/ntk/nusl-433576.

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The diploma thesis is focused on the issue of measuring the moisture content in building materials using indirect methods that allow its long-term measurement. The theoretical part of the thesis provides an overview of the forms of moisture in porous building materials and provide an overview of the principles of measuring moisture content. In the experimental part of the thesis, the aim is to verify the available methods for long-term monitoring of moisture in building materials built into building structures. Proven methods of measuring humidity include resistance, capacitive and microwave methods and their comparison with the results of gravimetric measurements. At the end of the work is an evaluation of knowledge and recommendations for further research in this area.
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Kankanala, Sujitha. "Advanced Moisture Control : Moisture measurement in textiles." Thesis, Linnéuniversitetet, Institutionen för fysik och elektroteknik (IFE), 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:lnu:diva-97939.

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Ridley, Andrew Martin. "The measurement of soil moisture suction." Thesis, Imperial College London, 1993. http://hdl.handle.net/10044/1/7933.

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Vikberg, Tommy. "Moisture content measurement in the wood industry." Licentiate thesis, Luleå tekniska universitet, Träteknologi, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-18148.

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In the wood industry, determination of the moisture content (mc) with a highaccuracy is of great importance. The green mc is important for optimisation of thewood drying process at sawmills, whereas the mc of dried boards is of interest for thefurther processing and final use of the boards. In the first publication in this thesis,which is a technical report written in Swedish, different measuring techniques withtheir own pros and cons are discussed. A total of 13 different measurement principlesare discussed, focusing on the ability to measure mc in the range of 7-18%. The resultsuggests that mc-meters that use electromagnetic waves in the radio- and microwaveranges have the greatest potential to become the next generation mc-meters for driedboards.The second publication, which is presented in this thesis, investigates the possibilityof measuring the green sapwood mc in pine logs by combining industrial X-rayscanners and 3D-scanners. The method is shown to be suitable for identifying batchesof logs in which the sapwood has begun to dry prior to sawing, rather than predictingthe sapwood mc with high accuracy at the level of individual logs.In a single board, one would ideally like to measure the mc profile over the entirecross section to determine the mc gradient. However, the measured result is affectedin the vicinity of the board edges. In the third publication, the existence of thisproblem is identified, and it is shown that it can be decreased by using correlationfunctions generated by finite element simulations of the measurement system.The fourth publication considers the potential to increase the measurement accuracyof the mc of single boards by combining different measurement techniques.Microwaves, X-rays and visual sorting into different wood quality classes are used. Itis shown that the measurement accuracy is increased by the addition of both the Xraymeasurements and the visual sorting. This result is interesting because visualsorting is usually already present in the final sorting of large sawmills. This is alsowhere the mc measurement preferably is to be performed.<br>Godkänd; 2012; 20120315 (tomvik); LICENTIATSEMINARIUM Ämnesområde: Träfysik/Wood Physics Examinator: Professor Tom Morén, Institutionen för teknikvetenskap och matematik, Luleå tekniska universitet Diskutant: Teknologie licentiat Björn Källander, Stora Enso Timber AB, Falun Tid: Torsdag den 26 april 2012 kl 10.00 Plats: Hörsal A, Campus Skellefteå, Luleå tekniska universitet
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Nyström, Jenny. "Rapid measurements of the moisture content in biofuel." Doctoral thesis, Mälardalens högskola, Institutionen för samhällsteknik, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-130.

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An increasing number of power plants in Scandinavia are beginning to use biofuel instead of coal or oil. The material in the new fuel is a mixture of woodchips, mostly Pine, Spruce and Salix, bark, GROT (tops and branches from felling waste) and sawdust from sawmills. It is heterogeneous, having a moisture content varying from 15% up to 65%. The moisture content affects the combustion of the fuel and therefore its commercial value. The industry is now interested in obtaining a method for measuring the moisture content of biofuel, quickly and reliably; preferably on delivery at the power plant. The measuring technique presented in this thesis is the first reported in the literature capable of measuring the moisture content of a large sample of such an heterogeneous material as biofuel. The equipment is today calibrated for a sample volume of 0.1 m3. A radio frequent signal is supplied from an antenna and penetrates the biofuel. Its reflection is modeled using partial least squares. As part of the work presented in this thesis, a new type of measuring rig and an analysis method for measurement of the moisture content of large samples of heterogeneous material have been developed. A statistical model for moisture content measurements of five different biofuel materials using radio waves has been built, having a root mean square error of prediction of 2.7. The interactions between biofuels and radio frequent signals have been demonstrated, indicating a variation of the reflection with varying types of biofuel material and variation in the reflection and delay of the signal with varying moisture content.
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Books on the topic "Methods of moisture measurement"

1

Heidmann, L. J. Comparison of moisture retention curves for representative basaltic and sedimentary soils in Arizona prepared by two methods. USDA Forest Service, Rocky Mountain Forest and Range Experiment Station, 1990.

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Troughton, Gary Ellis. Evaluation of a new moisture measuring method for determining on-line moisture content in biomass feedstock. Energy, Mines and Resources Canada, 1985.

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Quantification of top soil moisture patterns: Evaluation of field methods, process-based modelling, remote sensing and an integrated approach. Koninklijk Nederlands Aardrijkskundig Genootschap, 2009.

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International Workshop on Indirect Methods for Estimating the Hydraulic Properties of Unsaturated Soils (1989 Riverside, Calif.). Indirect methods for estimating the hydraulic properties of unsaturated soils: Proceedings of the International Workshop on Indirect Methods for Estimating the Hydraulic Properties of Unsaturated Soils, Riverside, California, October 11-13, 1989. U.S. Salinity Laboratory, Agricultural Research Service, U.S. Dept. of Agriculture, 1992.

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(2010), GeoShanghai International Conference. Experimental and applied modeling of unsaturated soils: Proceedings of the GeoShanghai 2010 International Conference, June 3-5, 2010, Shanghai, China. American Society of Civil Engineers, 2010.

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1972-, Hoyos Laureano R., Zhang Xiong 1971-, Puppala Anand J, and American Society of Civil Engineers, eds. Experimental and applied modeling of unsaturated soils: Proceedings of the GeoShanghai 2010 International Conference, June 3-5, 2010, Shanghai, China. American Society of Civil Engineers, 2010.

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Der Einfluss des Reliefs, der Hangsedimente und der Bodenvorfeuchte auf die Abflussbildung im Mittelgebirge: Experimentelle Prozess-Studien im Sauerland. Geographisches Institut der Ruhr, Universität Bochum, 2006.

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Wernecke, Roland, and Jan Wernecke, eds. Industrial Moisture and Humidity Measurement. Wiley-VCH Verlag GmbH & Co. KGaA, 2014. http://dx.doi.org/10.1002/9783527652419.

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United States. Federal Grain Inspection Service. Moisture handbook. U.S. Dept. of Agriculture, Federal Grain Inspection Service, 1986.

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Verkhratsky, Alexei, and Ole H. Petersen, eds. Calcium Measurement Methods. Humana Press, 2010. http://dx.doi.org/10.1007/978-1-60761-476-0.

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Book chapters on the topic "Methods of moisture measurement"

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Agostini, Franck, Elisa Franzoni, Kurt Kielsgaard Hansen, Hemming Paroll, and Lars-Olof Nilsson. "Monitoring, Remote Measurements." In Methods of Measuring Moisture in Building Materials and Structures. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-74231-1_26.

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Watanabe, Hisahiko, Mika Fukuoka, and Shinji Shimada. "Measurement of moisture Diffusion in a Soybean seed by Pulsed-Field-Gradient NMR Method." In Developments in Food Engineering. Springer US, 1994. http://dx.doi.org/10.1007/978-1-4615-2674-2_71.

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Wang, Yun, Li-pin Li, Huan Chen, Jing-feng Yuan, Mei-shuai Tong, and Rui-qiang Han. "Study on Measurement Method of Moisture Content of Cold Cathode X-ray Two-Phase Flow." In Springer Series in Geomechanics and Geoengineering. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-2485-1_167.

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Leito, Ivo, and Lauri Jalukse. "Measurement of Moisture Content (Water Content) in Edible Oil Using the Volumetric Karl Fischer Method According to ISO 8534:1996." In Traceability, Validation and Measurement Uncertainty in Chemistry: Vol. 3. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-20347-4_3.

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Kasal, Bohumil, and Gretchen Lear. "Moisture Measurement." In In Situ Assessment of Structural Timber. Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-94-007-0560-9_11.

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Erich, Bart J. F., and Leo Pel. "Moisture content measurement." In Fundamentals of mold growth in indoor environments and strategies for healthy living. Wageningen Academic Publishers, 2011. http://dx.doi.org/10.3920/978-90-8686-722-6_11.

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Yu, Kegen. "Soil Moisture Measurement." In Navigation: Science and Technology. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-0411-9_9.

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Grabe, D. F. "Measurement of Seed Moisture." In Seed Moisture. Crop Science Society of America, 2015. http://dx.doi.org/10.2135/cssaspecpub14.c5.

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Ahmad, Latief, Raihana Habib Kanth, Sabah Parvaze, and Syed Sheraz Mahdi. "Measurement of Soil Moisture." In Experimental Agrometeorology: A Practical Manual. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-69185-5_19.

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Jonard, François, Heye Bogena, David Caterina, et al. "Ground-Based Soil Moisture Determination." In Observation and Measurement. Springer Berlin Heidelberg, 2017. http://dx.doi.org/10.1007/978-3-662-47871-4_2-1.

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Conference papers on the topic "Methods of moisture measurement"

1

Gutten, Miroslav, Daniel Korenciak, Milan Sebok, Matej Kucera, and Richard Janura. "Moisture Measurement of Transformer by Time Methods." In 2019 12th International Conference on Measurement. IEEE, 2019. http://dx.doi.org/10.23919/measurement47340.2019.8780032.

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Rotta, Pedro, Franco Abanto, William Ipanaque, Gaby Ruiz, Juan Soto, and Jose Manrique. "A review of current methods for moisture content measurement." In 2019 IEEE CHILEAN Conference on Electrical, Electronics Engineering, Information and Communication Technologies (CHILECON). IEEE, 2019. http://dx.doi.org/10.1109/chilecon47746.2019.8987996.

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Tien, Yun-Sheng, and Li-Cheng Hsieh. "The algorithm of moisture measurement applying volumetric method." In 2015 International Conference on Machine Learning and Cybernetics (ICMLC). IEEE, 2015. http://dx.doi.org/10.1109/icmlc.2015.7340655.

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lingli, Zhao. "Soil Moisture Measurement Based on Monte Carlo Method." In 2019 Chinese Control And Decision Conference (CCDC). IEEE, 2019. http://dx.doi.org/10.1109/ccdc.2019.8832820.

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Zhang, Yangjun, and Seichi Okamura. "Comparison of density-independent methods for moisture measurement using microwave free-space technique." In International Symposium on Optical Science and Technology, edited by Cam Nguyen. SPIE, 2001. http://dx.doi.org/10.1117/12.450172.

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Hirai, A., T. Kikuchi, H. Namba, and J. Sato. "Moisture Detection Method in Ceramic Package by Slight Current Measurement." In ISTFA 1997. ASM International, 1997. http://dx.doi.org/10.31399/asm.cp.istfa1997p0205.

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Abstract A method of measuring moisture in the ceramic Package (pKG) without the destruction of the samples was developed (We define KNH method: kinahi method). The moisture oondition in the cavity can be oonfirmed by the temperature dependence of the leakage current between adjaoont terminals (At least one of measured terminals is non-oonnect). This method is performed by measuring the leakage current between non-oonnect terminals at various temperatures. The temperature is raised from room temperature. In the caseof the standard sample which has no moisture in the cavity, the leakage current increases as the temperature is raised. However, a sample which has a large amount of moisture in the cavity has a leakage current that decreases with increasing temperature and increases after this cycle. When the temperature is raised, the leakage current decreases because of a decrease in oondensed moisture. After the temperature without oondensing, the leakage current increases as same as standard sample. When this KNH method is used for the product which has no non-oonnect terminals, the leakage current can be measured by using the signal terminals at 0.2V which is the voltage under Vt of protection diode. This KNH method is very useful for oonfirmation of the slight leakage current of fine ceramic PKG and for the amount of moisture in the cavity
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Nath, K. Divya, Y. M. Saranya Das, Sudha Ramasamy, and Prabhu Ramanathan. "A review on non-destructive methods for the measurement of moisture contents in food items." In 2015 International Conference on Circuits, Power and Computing Technologies (ICCPCT). IEEE, 2015. http://dx.doi.org/10.1109/iccpct.2015.7159367.

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Mo, Changtao, Xin Du, Ping He, Lili Zhang, Nan Li, and Ming Wang. "Study on paper moisture measurement method by monochromatic light sources." In 5th International Symposium on Advanced Optical Manufacturing and Testing Technologies, edited by Yudong Zhang, José Sasián, Libin Xiang, and Sandy To. SPIE, 2010. http://dx.doi.org/10.1117/12.867942.

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Yang, Yu, Zhang Xi, and Yang Xiaodong. "Research on Moisture Measurement of Sinter Mixture with Standing Wave Method." In 2007 8th International Conference on Electronic Measurement and Instruments. IEEE, 2007. http://dx.doi.org/10.1109/icemi.2007.4351048.

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Lozoya, Camilo, Gilberto Mendoza, Carlos Mendoza, Valentin Torres, and Miguel Grado. "Experimental evaluation of data aggregation methods applied to soil moisture measurements." In 2014 IEEE Sensors. IEEE, 2014. http://dx.doi.org/10.1109/icsens.2014.6984951.

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Reports on the topic "Methods of moisture measurement"

1

Thornberg, Steven Michael, Michael I. White, and Adriane Nadine Irwin. Precision moisture generation and measurement. Office of Scientific and Technical Information (OSTI), 2010. http://dx.doi.org/10.2172/984149.

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Elder, Bruce, Sally Shoop, Mary Feyrer, and Samuel Beal. Methods for measuring snow moisture and density. Engineer Research and Development Center (U.S.), 2020. http://dx.doi.org/10.21079/11681/37655.

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Hernandez, J., J. Koo, C. Romero, M. Vigars, M. Newman, and G. Dallum. Linescan Camera System for 100% Moisture Measurement. Office of Scientific and Technical Information (OSTI), 2006. http://dx.doi.org/10.2172/900125.

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Ritter, G. A., K. L. Pearce, and T. L. Stokes. Surface Moisture Measurement System Operation and Maintenance Manual. Office of Scientific and Technical Information (OSTI), 1995. http://dx.doi.org/10.2172/447990.

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Vargo, G. J. Electromagnetic induction moisture measurement system acceptance test report. Office of Scientific and Technical Information (OSTI), 1996. http://dx.doi.org/10.2172/331603.

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Ritter, G. A. Surface moisture measurement system hardware acceptance test procedure. Office of Scientific and Technical Information (OSTI), 1996. http://dx.doi.org/10.2172/483356.

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Ritter, G. A. Surface moisture measurement system acceptance testing work plan. Office of Scientific and Technical Information (OSTI), 1996. http://dx.doi.org/10.2172/470864.

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Vargo, G. F. ,. Westinghouse Hanford. Electromagnetic induction moisture measurement system acceptance test plan. Office of Scientific and Technical Information (OSTI), 1996. http://dx.doi.org/10.2172/658872.

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Vargo, G. F. ,. Westinghouse Hanford. Surface moisture measurement system operation and maintenance manual. Office of Scientific and Technical Information (OSTI), 1996. http://dx.doi.org/10.2172/658889.

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Vargo, G. F. Jr Westinghouse Hanford. Surface moisture measurement system computer software design description. Office of Scientific and Technical Information (OSTI), 1996. http://dx.doi.org/10.2172/659236.

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