Научная статья на тему 'The energy-efficient mobile device for grain drying'

The energy-efficient mobile device for grain drying Текст научной статьи по специальности «Электротехника, электронная техника, информационные технологии»

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Ключевые слова
ENERGY-EFFICIENT / DRYING DEVICE / FLOWABILITY / POROSITY / HEAT CONDUCTION / THERMAL DIFFUSIVITY / HYDRAULIC CONDUCTIVITY / REDUCER / MUFF / BELT TRANSMISSION / GUTTER / SCREW

Аннотация научной статьи по электротехнике, электронной технике, информационным технологиям, автор научной работы — Bekkulov Botirali Rahmonkulovich, Ruziev Abdulvahob Abdulhaevich, Hadzhieva Salimahon Sadikovna

In the article given the short review of drying units and described the offered new energy saving up mobile device for drying of grain crops. It is displayed joint applications of two methods of drying of a grain: absorbing and convective. Adducted basis parametres of the device and calculations for power savings of process of drying in the device. It is displayed improvement of physical properties of separate grain crops conducive to power savings of process of drying at use of the given device. Possibility of application alternative to energy for process of drying and advantage of the given device is reduced.

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Текст научной работы на тему «The energy-efficient mobile device for grain drying»

Section 8. Technical sciences

Bekkulov Botirali Rahmonkulovich, The competitor of a scientific degree of the doctor of philosophy Ph. D., the Andizhan engineering institute E-mail: [email protected] Ruziev Abdulvahob Abdulhaevich, cand. tech.sci., docent of the Andizhan engineering institute

E-mail: [email protected] Hadzhieva Salimahon Sadikovna, senior teacher of the Andizhan engineering institute E-mail: [email protected]

THE ENERGY-EFFICIENT MOBILE DEVICE FOR GRAIN DRYING

Abstract: in the article given the short review of drying units and described the offered new energy saving up mobile device for drying of grain crops. It is displayed joint applications of two methods of drying of a grain: absorbing and convective. Adducted basis parametres of the device and calculations for power savings of process of drying in the device. It is displayed improvement of physical properties of separate grain crops conducive to power savings of process of drying at use of the given device. Possibility of application alternative to energy for process of drying and advantage of the given device is reduced.

Keywords: energy-efficient, the drying device, flowability, porosity, heat conduction, thermal diffusivity, hydraulic conductivity, the reducer, a muff, a belt transmission, a gutter, the screw.

Intproduction cultures and turn out big crops. Harvesting of such cul-

Drying-it the most widespread master schedule. tures to have in the autumn which drying at lowering of

In our country for drying of grain crops spend about air temperature, cloudy and rainy weather is a problem.

300 thousand tons of fuel. As grain drying is the most Thus, acute necessity on grain drying devices is observed.

power-consuming technological operation working out To a member of a farm having about 500 kg dry up a grain

of new drying units, methods of their perfecting and ef- product (rice) not favourably from the economic point

ficiency heightening has an important economic value. of view to use dryer grains with capacity 5 ton/hour

As it is known, in fresh-cut a grain proceeds process post- which spends material means on 80$/hour. Material ex-

harvest ripenings. Correctly picked up process of drying penditure on transportation to a stationary drying unit

of a grain promotes alignment of damp and degree of a besides, is required. Therefore, considering local condi-

maturity of grain mass, improvement of appearance and tions it is required mobile, economic drying devices. technological properties of a grain [1]. Materials and methods

In last years in our country after harvesting wheat Offered the device treats with us to agricultural techare sowed crops (rice), leguminous (bean, golden gram) nicians, rice, a peanut, sunflower, etc. in farmer, private crops-leguminous (maise) and oily (sunflower, peanut) enterprises can be applied to drying of products of grain

crops as. A device problem is heightening energy-efficient process of drying and quality of an exsiccated product, security use of alternative energy for architecture of process of drying on the remote districts from the farm electric power line.

It is known various aspects drying devices for products of grain crops. The drying device for grain XLM 350 has a principle of a recycling [2]. Capacity of drying more than 300 m 3/days, overall dimensions 4040 x x 5400 x 8700 mm, power of the electric motor of 75 kw. The high cost price of the device has.

Drying devices series MHTD approaches for maize, wheat, rice, with power of 2400 tons/days, and series MHTY approaches for a soy, colza, peanut, with power of 5000 tons/days [3]. The big overall dimensions and the high cost price have these devices.

The device for grain drying model WGH has of brands 100, 200, 300, 400, 500, 600, 700, 800 which are grounded on a convective mode of drying [4]. The device height reaches from 6 meters to 20 meters. In the device the temperature of an exsiccated product reaches 55° C that is to inadmissible values for separate grain (for example, for rice).

The mobile drying device of bunker type C3n-32 has a principle of cyclic character [5]. In the given installation at maintenance are used extras means, has the big overall dimensions (8000 x 3200 x 7550), the big mass (4400 kg), high power consumption (60 kw).

In the drying device ofbunker type CM-1 the exsiccated product is transmitted from a hopper to the bunker [6]. The device has high efficiency (120-170 tons/day), however has the big expenditure of diesel fuel (80liter/hour).

The mobile device for drying of grain products has the nutritious bin fixed on the screw which is at an angle to horizon and has the foundations [7]. The flute is attached to the screw and fixed section. The drier drum which has regulated a slot is attached on the trailer and located at an angle to horizon. Under an adjustable slot installed the sorting gear, under which there is a container for dried a product. Aside the upper part a drier drum located the fixed section, which has the ventilator and a calorifier. The drier drum drive gear consists of the electric motor, the reducer, a clutch. The drive gear of the screw conveyor consists of the electric motor and a belt transmission. For security of the mobility the device it is installed on the trailer. However there are rather

big losses of heat in the drier drum what to lead to an excessive energy consumption.

In the offered device the convective mode of drying [8] is applied, therefore under recommendations reduced in operation [9] is planned feeding of warm air on a grain current. In given the device the problem is executed thus: For drying the certain portion of an exsiccated product of grain crops undertakes. Due to portion, pleiocyclic drying it is ensured uniform mixing an exsiccated grain which is carried out by means of two screws and the drier drum which result to serve for uniform drying of a grain. Uniformity of drying grain, ensures qualities of a grain at its further processing. For example, at rice processing (unrefined rice) after defined dry up is exposed to machining job ergo turns out refined rice. Deriving of a qualitative product immediately depends on homogeneity of an exsiccated product.

Results

The device for drying of products of grain crops (fig. 1) contains the nutritious bin 1 fixed on the screw 2 which has a drive gear consisting of the electric motor 3 and belt transmission 4. The screw to be under a certain edge to horizon and has the foundation. The bin of a time delay 5 is fixed on the screw 6 having drive gear the electric motor 7 and a belt transmission 8 which is under a certain edge to horizon and has the foundation. The gutter 9 is attached to the screw 8. Fixed section 10 has the foundation and contains the ventilator 11 and a calorifier 12. The Drier drum 13 having a foundation is located at an angle to the horizon which drive gear consists of the electric motor 15, the muff 16, the reducer 17, the muff 18 and the slot 14 for grain release. The special gutter (the sorting gear) 19 has the foundation and a drive gear consisting of the electric motor 15, a belt transmission 20. The vessel for dried grains 21 is under the sorting gear. The bin of a time delay 5 has a lock 22. The cyclone 23 has the foundation which drive gear consists of the electric motor 24 and belt transmission 25 and has pipe ducts 26, 27 and 28. The pipe duct 26 has conoidal a tip the enveloped mesh which is in the bin of a time delay 5. The pipe duct 27 is under the bin of a time delay 5. The pipe duct 28 is over special gutter (the sorting gear) 19. The drying device is fixed on the trailer 29. Dual-circuit solar water-heating installation 30 is located sideways, and the solar photo-electric battery 31 from above (fig. 3).

9 10.11,12 8 7 13 3 4 14

Figure 1. The mobile device for grain drying

Figure 2. A rice rind

Figure 3. An aspect of the mobile device for grain drying

Discussions

In the device for drying of a grain the power savings increase is reached following manner:

Cheeseparings of machining job of rice (unrefined rice) is a rind ofrice, which utilizable. In the work given the rind of rice as a sorbent (fig. 2) is used. Amounts of a used sorbent in the course ofdrying it is defined by expression: m = 0.3 m

sor gra

Where, mgm - weight of an exsiccated grain, kg; Sorbent provides moisture removal on 5% from mass of an exsiccated grain. Amounts of a portion of an exsiccated grain are made by 150 kg. It is known that the average value of expenditure of warmth for evaporation of a moisture makes of 1 kg nearby 6000 kJ. Thus, the sorbent ensures energy sawing following amount of warmth at capacity of drying of 150 kg/h:

Q1 = 7.5 • 6000 = 45000 kJ = 10748.06 fccal Sorbent application allows to save energy:

N1 = 10748.06/860 = 12.5 kW • h In the drier drum it is ensured moisture removal grains about 4%. An external surface of the drier drum it is coated by a heat-insulating composite material which prevents heat losses on 20% therefore it is reached following power savings of amount of warmth: Q2 = 1.2-860 = 1032 Kcal = 4320.8 KJ Amounts of the saved energy:

N2 = 1.2 kW • h Thus, a general meaning of power savings of amount of warmth equally:

Q = Q + Q2 = 11780.06 kcal General meaning of amount of the saved energy at capacity of drying of 150 kg/h equally: N = N1+ N2 = 13.7 kW • h In a current of process of drying of rice in the device physical properties of rice as porosity, flowability, an angle of slide, a thermal capacity, heat conduction, diffusivity and hydraulic conductivity are examined. At rice transiting through the screw observed breakage a bough of rice. As a result ofbreakage a rice bough has decreased porosity that has augmented a flowability value. The flowability increase has led to reduction of an angle of slide of rice. It is known that flowability and angle of slide has a special value in the course of processing of a product of grain crops. Besides, porosity lowering has led to reduction of air spaces between pellets of grain mass that is the favorable phenomenon. It is known that air is a

bad conductor of heat, temperatures, a moisture and has rather great value of a thermal capacity. Porosity lowering has led to increase in a value of heat conduction, thermal diffusivity, hydraulic conductivity and to reduction of a value of a thermal capacity. It is known that demanded amount of warmth for drying directly proportional to a thermal capacity. Thus, has decreased demanded amount of warmth that is the answering purpose.

In given the device for pellet drying it is provided use of alternative energy which creates possibility architecture of process of drying on places where is not available current lines. For a hot-air heater the double-loop solar heating plant with a tank the accumulator is used. For deriving of electric energy the solar photo-electric battery into the square 30 m 2 is placed. Considering that, using 1m 2 the solar battery it is possible to receive on the average 200 W electrical energy in the given construction possibility of deriving of 6 kW electrical energy is created. For execution of process of drying the value demanded electrical energy in the device has: N. = N 3 + N 7 + N ,, + N + N 24 = 0.75 + 0.75 +

dem m.3 m.7 m.11 m.15 m.24

+0.2 + 0.55 + 1.1 = 3.35 kW

Where, N - the screw electric motor.

m.3

N „ - the screw electric motor.

m.7

N ,, - the hot-air heater electric motor.

m.11

N , c - the drier drum electric motor.

m.15

Nm.24 - the cyclone electric motor.

Thus, the amount electrical energy received by means of solar batteries is sufficient for execution of process of drying.

The device for drying of products of grain crops (fig. 1) has next sizes: - diameters of screws of250 mm, -length of screws of2700 mm, - angle of screws to horizon 60 external diameter of the drier drum of 880 mm, -length of the drier drum 2000 mm, drier drum angle to horizon 20 ° Turnovers of shafts of the screw of 94 rpm, a turnover of the shaft of the drier drum of 15 rpm, a turnover of the shaft of a cyclone of 2900 rpm. Device overall dimensions 4000 x 3000 x 25000 mm. Power consumption N=3.35 kw, voltage 380 V, a frequency of 50 Hz, all ~ 440 kg.

Conclusion

The offered construction of the device for grain drying has following advantages:

- As a sorbent the withdrawal of processing of crude rice (a rice rind) is used, expenditure on a sorbent thus drying cost is not required remains invariable;

- Use a rind of rice in the form of a sorbent leads power saving process of drying of a grain;

- Application in given device the bin of a time delay of a grain creates applications a drying mode witgh sorp-tive medium;

- Provides uniform mixing, hence what to serve for grain improvement in quality at the further processing;

- Application of a composite material for the drier drum to lead to improvement of power-economic indexes of process of drying of a grain;

- Use of solar batteries and a double-loop heating plant creates possibility of realisation of process of drying in district where there are no current lines;

Thus, distinctive signs of the offered invention are essential, are necessary and a sufficient condition for the decision of tasks in view. The offered construction is efficient, simple in the realisation and can be put, as in the fundamentals of creation of new highly effective, power saving up drying units.

References:

1. Sagindikova A. J. Improvement of process of drying of a grain by means of induction heaters. Diss. On competition of degree of the doctor of philosophy (PhD). - Almaty, - 2016. - 13 c.

2. URL: https://kazan.flagma.ru/sushilnoe-oborudovanie-zernovyh-o3300642.html.

3. URL: http://www.machineryshops.com/ru/column/%D0%9E%D0%B1%D0%BE%D1%80%D1%83% D0%B4%D0%BE%D0%B2%D0%B0%D0%BD%D0%B8%D0%B5%20%D0%B4%D0%BB%D1%8F%20 %D0%B7%D0%B5%D1%80%D0%B5%D0%BD.html

4. URL: http://www.zzwgjx.cn/products/dryer/grain-dryer.html?gclid=CP2Rgt2g_NUCFRZnGQodzSsFgw

5. URL: http://bobruiskagromach.com/ru/catalog/topequipment-for-refining-and/zsp-32 URL: http://bobruis-kagromach.com/ru/catalog/topequipment-for-refining-and/zsp-32

6. URL: http://www.nestorexpo.com/belagro/index.pl?act=STAND&id=9332

7. Bekkulov B. R. Work out of the power effective design mobile grain-dryer installions. Bulleten of Science and Practice, (11). Russian. - 2017. - P. 80-86.

8. Bekkulov B. R., Aliev R., etc. The decision on reception request to consideration of Republic Uzbekistan AIS from 11/21/1017 № 17106 (Request FAP № 20170112, 15.09.17).

9. Dr. Dirk E. Maier and Dr. Fred W. Bakker-Arkema. Grain drying systems. St. Charles, Illinois, U. S.A. - 2002. -44 p.

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