Patent ID: 9714790
Date: 2017-07-25
CPC Classifications: F26B

Claim:
1. A procedure for controlling moisture in bulk material selected from grains or seeds to be applied to a moisture control facility, said facility comprising: at least one silo container of bulk material, said silo comprising a flat base floor made of a rigid material on which the perimeter wall of said silo is positioned and held, an elevated floor with respect to said base floor, contained within the perimeter wall of the silo, wherein said elevated floor comprises a plurality of holes defining air passages having surface of 15% to 30% of the total area of the elevated floor, an air chamber being defined between said base floor and said elevated floor, an air blower for blowing an air stream towards said air chamber connected through said perimeter wall, an air heater connected prior to the entry of the air stream into said air chamber, at least one air temperature sensor in at least one temperature reading point located inside the air chamber, and at least one air temperature sensor located externally of said silo, and at least one ambient air relative humidity sensor located externally of said silo, an electronic controller operatively connected to said air blower, to said air heater, to said air temperature sensor located inside the air chamber, to said air temperature sensor located externally of said silo, and to said ambient air relative humidity sensor located externally of said silo; said electronic controller including a data recorder of said sensor, a humidity recorder for recording a desired moisture value of the bulk material and a modeling and calculating means for predictively modeling the moisture and temperature changes of the bulk material and calculating the turning on-and-off times, and operating the power control of said air blower and air heater, the procedure comprising establishing a layer division of the bulk material contained in said silo, thereby determining a plurality of layers of bulk material; measuring initial moisture and temperature values of at least the bottom layer of said plurality of layers; recording said initial moisture and temperature values of at least said bottom layer in said data recorder of said electronic controller; recording a desired moisture value of the bulk material selected from an accepted commercial or technically required moisture limit for the bulk material in said data recorder of said electronic controller; establishing a circulating flow rate of air from said air blower; recording said circulating flow rate of air in said data recorder of said electronic controller; determining by said predictive modeling and calculating means a moisture range comprising an upper moisture limit equal to the desired moisture value of the bulk material and a lower moisture limit 3.0% under the upper moisture limit; and said upper and lower limits establish an initial preset tolerance range in respect of said recorded desired moisture value of the bulk material; determining by said predictive modeling and calculating means the activation of a stage selected from the group comprising a drying stage, a maintenance stage and a re-humidification stage; wherein said stage is selected according to the moisture value of said bottom layer from the grains contained in the silo, based on the comparison of said lower moisture limit and said upper moisture limit in relation to said moisture value of said bottom layer; wherein said drying stage, maintenance stage and re-humidification stage comprise the periodic calculation of the temperature and humidity variation of each layer of said plurality of layers, based on the temperature value of said temperature sensor in said air chamber, and on the ambient air relative humidity and temperature value of said sensors located externally to said silo, determining by use of said modeling and calculation means using equilibrium equations comprising the degree of progress in the active stage, until said stage reaches one hundred percent progress, and additionally, and wherein as said drying or re-humidification stage progresses, in predetermined time periods, the lower moisture limit preset value is adjusted, bringing it closer to the upper moisture limit; wherein the setting of the lower moisture limit is carried out as follows: taking the reading from said sensor means and obtaining the record for the current operating time of said air blower since the beginning of this procedure, calculating the current drying % the process has achieved, based on the following equation: wherein said Total Calculated Control Time is obtained from the following equation wherein said current moisture adjustment percentage allows said electronic controller to determine the current drying % of the moisture adjustment process of said bulk material, wherein a new lower moisture limit is selected from the group comprising: a new lower moisture limit=(Upper limit−3) if the current drying % is within the range of 0 to 50%; a new lower moisture limit=(Upper limit−1.5) if the current drying % is within the range of 50 to 75%; and a new lower moisture limit=(Upper limit−0.5) if the current drying % is within the range of 75 to 100%; wherein if the current drying % is less than 100%, the procedure proceeds again starting the modeling and calculation, wherein a stage is selected according to the calculated moisture value based on the prediction of the electronic controller, according to said modeling and calculating means in said first lower layer selected from said bulk material contained in said silo, based on the comparison of at least said new lower moisture limit and said upper moisture limit with respect to said moisture value calculated based on said prediction of said electronic controller according to said modeling and calculation means; recording the relative ambient humidity by means of said relative ambient humidity (%) sensor and the ambient temperature (° C.) obtained by said ambient temperature sensor to which said bulk material is being exposed to; calculating by said electronic controller the Equilibrium Moisture Content (EMC) of said bulk material type, as an indicator of the moisture content at which said bulk material will stabilize over time; and establishing the activation of said air blower and said air heater based on the air temperature in said air chamber, the desired moisture value stored in said recorder, the EMC, the relative ambient humidity and the ambient temperature.