RU96101189A

RU96101189A - IMPROVED FUMIGATION OF SMALL BULK PRODUCTS

Info

Publication number: RU96101189A
Application number: RU96101189/13A
Authority: RU
Inventors: Гордон Винкс Роберт; Джеймс Хантер Алек
Original assignee: Коммонвелт Сайентифик Энд Индастриал Рисерч Организейшн
Priority date: 1993-06-15
Filing date: 1994-06-15
Publication date: 1998-03-10

Claims

1. The method of fumigation of a small granular product in storage, comprising the steps of:
(a) providing a gas containing a fumigant having a fumigant concentration that is effective in controlling insect pests present in the stored product by fumigating the stored product for an extended period;
(b) supplying a gas containing a fumigant to the base of the storage at a flow rate Q _f , which is determined for a full storage by the formula

where Q _f is the flow rate in m ³ / s;
g is the acceleration of gravity (approximately 9.8 m / s ² );
P _a - atmospheric pressure, Pa;
R _a is the gas constant for air (= 287 J / kgK);
T _a - air temperature outside the silo on the Kelvin scale;
T _g - product temperature inside the silo also on the Kelvin scale;
R is the resistance coefficient, Pa • s / m ² , which depends on the type of product stored in the silo;
And - the horizontal cross-sectional area of the silo, m ² ,
thereby preventing the possible dilution of the concentration of the fumigant inside the product, resulting from the exhaust effect.

2. A method of fumigation of a small granular product in storage, comprising the steps of:
(a) providing a gas containing a fumigant having a fumigant concentration that is effective in controlling insect pests present in the stored product by fumigating the stored product for an extended period;
(b) determining the maximum difference between the temperature of the product inside the store and the temperature of the air outside the store, which will be observed during the fumigation period of the product;
(c) calculating the flow rate Q _{fmax of the} flow, which is the flow rate Q _f calculated according to the formula in accordance with step (b) according to claim 1, when the specified maximum temperature difference is used to determine Q _f ;
(d) supplying said gas containing a fumigant to the base of the silo at a constant flow rate Q _fmax ,
due to which the specified method of fumigation can be carried out automatically without a possible decrease in the concentration of the fumigant in the stored product, due to the exhaust effect, to a value that is lower than the minimum concentration required for effective fumigation of the product.

3. The method according to p. 1, characterized in that the gas containing the fumigant to the base of the storage is carried out continuously using a control device that includes a programmed microprocessor or a programmed computer that responds to signals corresponding to instantaneous values of T _a and T _g .

4. The method according to p. 1 or 3, characterized in that pre-set the minimum value of the specified flow rate of the gas stream, which is maintained while the calculated value Q _{f is} less than the specified minimum flow rate.

5. The method of fumigation of several storage facilities of the warehouse, in which each silo in this economy contains a corresponding small loose product, which includes the stages:
(a) providing a gas containing a fumigant having a fumigant concentration that is effective in controlling insect pests in a stored product or products;
(b) monitoring the temperature T _{g of the} product in each store, as well as the ambient temperature T _a outside the store, and determining the maximum difference between the temperature of the stored product and the indicated ambient temperature;
(c) supplying a gas containing a fumigant to the storage bases at a flow rate Q _{f of a} stream which is determined by the formula

where Q _f - flow rate, m ³ / s;
g is the acceleration of gravity (approximately 9.8 m / s ² );
P _a - atmospheric pressure, Pa;
R _a is the gas constant for air (= 287 J / kgK);
T _a - air temperature outside the storage facilities in Kelvin;
T _g is the temperature of the product in storage, which is most different from T _a , also according to Kelvin;
R is the resistance coefficient, Pa • s / m ² , which depends on the type of stored bulk products;
And - the total area of the horizontal cross sections of the storage, m ³ ;
due to this, the dilution of the concentration of the fumigant in any storage facility of the warehouse to a value lower than that required for effective fumigation of the stored product is prevented due to the exhaust effect.

6. The method according to any preceding paragraph, characterized in that in one or each storage the stored product is grain.

7. The method according to p. 6, characterized in that the grain in one or each storehouse is freely sprinkled wheat, and the resistance coefficient R in this case is about 3100 Pa • s / m ² .

8. The method according to p. 6, characterized in that the grain in one or each storage is compacted wheat, and the resistance coefficient R in this case has a value of about 4000 Pa • s / m ² .

9. The method according to any preceding paragraph, characterized in that the fumigant in the gas containing the fumigant is phosphine.

10. The method according to any one of paragraphs. 1 to 5, characterized in that the product in one or each storehouse is a non-wheat product and selected from the group consisting of products listed in Table 2 of Hunter's article published in Journal of Agricultural Engineering Research, Volume 28, p. 437-450, 1983, and R is the R value calculated for the indicated selected product and R is also listed in the indicated table 2.

11. A device for fumigation of a small loose product in storage, containing:
(a) means for injecting a gas containing a fumigant into the base of the storage facility;
(b) a first temperature sensor located inside the product in the storage and giving an output signal indicating the temperature in the stored product;
(c) a second temperature sensor located outside the store and giving an output signal indicating the ambient temperature outside the store;
(d) data processing means adapted to receive said first and second output signals and generate at least one control signal,
moreover, at least one control signal is supplied to the input of the regulatory means, and these regulatory means are adapted to control the flow rate at which the gas containing the fumigant is pumped by the indicated injection means so that the flow rate of the gas containing the fumigant going to the storage has a value Q _f , which is determined for full storage by the formula

where Q _f - flow rate, m ³ / s;
g is the acceleration of gravity (approximately 9.8 m / s ² );
P _a - atmospheric pressure, Pa;
R _a is the gas constant for air (= 287 J / kgK);
T _a - air temperature outside the storage in Kelvin;
T _g is the temperature of the product inside the storage also in Kelvin;
R is the resistance coefficient, Pa • s / m ² , which depends on the type of stored product;
And - the horizontal cross-sectional area of the store, m ² .

12. The device according to claim 11, characterized in that
(a) these regulatory remedies contain:
(I) the first valve in the pipe going from the blower to the base of the storage,
(Ii) a second valve in a line extending from a pressurized source of gaseous fumigant to said pipe;
(b) said regulating means regulates said first valve to establish an air flow rate to said storage in accordance with a calculated value of Q _f ;
(c) said regulating means regulates a second valve to maintain a predetermined fumigant concentration in the air passing through said pipe.

13. A device for fumigation of several storage facilities in a warehouse, each of which contains a small loose product containing:
(a) means for injecting a gas containing a fumigant from one source to the base of each storage facility;
(b) a corresponding first temperature sensor located inside the product in each storage, and each giving an output the first signal indicating the temperature T _{g of the} product;
(c) a second temperature sensor located on the outside of each store, giving an output signal indicating the ambient temperature outside the store;
(d) data processing means operatively associated with said temperature sensors and control means, said data processing means being adapted to receive the first and second output signals from temperature sensors and determine the maximum difference between the product temperature and the ambient temperature and generate a control signal that is supplied the input of these regulatory means, and these regulatory means are adapted to regulate the flow rate at which the specified Detergents inject gas containing the fumigant into the storage so that the flow rate of the gas containing the fumigant to the storage has a value of Q _f , which is calculated by the formula

where Q _f - flow rate, m ³ / s;
g is the acceleration of gravity (approximately 9.8 m / s ² );
P _a - atmospheric pressure, Pa;
R _a is the gas constant for air (= 287 J / kgK);
T _a - air temperature outside the storage facilities on a scale K;
T _g - the temperature of the product in the silo, which is most different from T _a , also on a scale K;
R is the resistance coefficient, Pa • s / m ² , which depends on the type of stored products;
And - the total area of horizontal cross-sections of storage, m ² .

14. The device according to paragraphs. 11, 12 or 13, characterized in that the said data processing means is a programmed microprocessor or a programmed computer.

15. The device according to any one of paragraphs. 11 to 14, characterized in that it includes means for maintaining a given minimum flow rate of the specified stream, when the estimated flow rate Q _f less than the specified minimum flow rate.

16. The method according to any one of paragraphs. 1 - 10, characterized in that one or each store is only partially filled with the product, and the calculated flow rate Q _f is multiplied by the coefficient f, where f = h _a / h _g , where h _a is the height of the store, and h _g is the height of the product in storage.

17. The device according to any one of paragraphs. 11 - 15, characterized in that one or each store is only partially filled with the product, and the calculated flow rate Q _f is multiplied by the coefficient f, where f = h _a / h _g , where h _a is the height of the store, and h _g is the height of the product in storage.

18. A method of fumigating a small bulk product stored in one or more storage facilities of a warehouse, mainly as described above with reference to FIG. 1 attached drawings.

19. A device for fumigation of a small loose product stored in a silo or in several silos.