Texnik fanlar / Technical sciences / Технические науки
International journal of theoretical and practical research
Scientific Journal
Year: 2022 Issue: 5 Volume: 2 Published: 31.05.2022
http://alferganus.uz
Citation:
Shukurov, N.R., Khalikov, R.T. (2022). Ways to reduce water consumption during car maintenance. SJ International journal of theoretical and practical research, 2 (5), 81-86.
Шукуров, Н.Р., Халиков, Р.Т. (2022). Пути уменьшения расходов воды при техническом обслуживании автомобилей. Nazariy va amaliy tadqiqotlar xalqaro jurnali, 2 (5), 81-86.
Doi:
https://dx.doi.org/10.5281/zenodo.6945590
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Nuritdin Rakhimovich Shukurov
PhD in technical sciences, Associate Professor Academy of Armed Forces of the Republic of Uzbekistan, E-mail: dr.nuritdin@yandex. ru
Rakhmatulla Tangrikulovich
Khalikov
DOI 10.5281/zenodo .6945 590
PhD in technical sciences, Associate
Professor
Academy of Armed Forces of the Republic of Uzbekistan UDK 629.3:62-776
WAYS TO REDUCE WATER CONSUMPTION DURING CAR
MAINTENANCE
Abstract: It is known that the maintenance of a machine consists of a large number of operations, which, by their nature and conditions of execution, can be combined into certain groups, covering the cycle of maintenance work. The main task of the station for the final washing of cars of a military unit is the high quality of the work performed with the lowest water consumption and the highest labor productivity. The article discusses an approach to the economical use of water at the final wash point during technical maintenance of vehicles. The use of the KARCHER K7 1.168-502.0 washing machine in the maintenance of vehicles is justified.
Key words: washing machine, KARCHER, efficiency, water consumption, jet, pressure, kinetic energy of a water molecule.
Шукуров Нуритдин Рахимович
Узбекистон Республикаси Куролли кучлари Академияси техника таъминоти
кафедраси, техника фанлари номзоди, доцент
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Холи^ов Рахматулло Тангрикулович
Узбекистон Республикаси Куролли кучлари Академияси техника таъминоти
кафедраси, техника фанлари номзоди, доцент
АВТОМОБИЛЛАРГА ТЕХНИК ХИЗМАТ КУРСАТИШ ПАЙТИДА СУВ САРФИНИ КАМАЙТИРИШ УСУЛЛАРИ
Аннотация: Маълумки, машинага техник хизмат курсатиш жуда куп сонли операциялардан иборат булиб, улар табиати ва бажарилиш шартлари буйича парваришлаш ишларининг циклини цамраб олувчи маълум гурууларга бирлаштирилиши мумкин. Автомобилларни тозалаш пунктининг асосий вазифаси энг кам сув сарфи ва энг юцори меунат унумдорлиги билан бажариладиган ишларнинг юцори сифатидир. Мацолада автоуловларга техник хизмат курсатиш пайтида ювишни тугатиш нуцтасида сувдан тежамкор фойдаланишга ёндашув куриб чицилган. Автомобилларга техник хизмат курсатиш учун КЛЯСИЕЯ К7 1.168-502.0 кир ювиш машинасидан фойдаланиш асосланган.
Калит сузлар: кир ювиш машинаси, КЛЯСИЕЯ, самарадорлик, сув оцими, реактив, босим, сув молекуласининг кинетик энергияси.
Шукуров Нуритдин Рахимович
кандидат технических наук, доцент, кафедра технического обеспечения,
Академия Вооруженных Сил Республики Узбекистан
Халиков Рахматулло Тангрикулович
кандидат технических наук, доцент, кафедра технического обеспечения,
Академия Вооруженных Сил Республики Узбекистан
ПУТИ УМЕНЬШЕНИЯ РАСХОДОВ ВОДЫ ПРИ ТЕХНИЧЕСКОМ ОБСЛУЖИВАНИИ
АВТОМОБИЛЕЙ
Аннотация: Известно, что техническое обслуживание машины состоит из большого количества операций, которые по своему характеру и условиям выполнения могут быть объединены в определённые группы, охватывающие цикл работ технического обслуживания. Основной задачей пункта чистовой мойки автомобилей является высокое качество выполняемых работ при наименьшей затрате воды и наибольшей производительности труда. В статье рассмотрен подход к экономному использованию воды в пункте чистовой мойки при техническом обслуживании автомобилей. Обосновано использование моечной машины марки KARCHER К7 1.168-502.0 при техническом обслуживании автомобилей.
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Ключевые слова: моечная машина, КЛЯСИЕЯ, экономичность, расход воды, струя, давление, кинетическая энергия молекулы воды.
Introduction
Car maintenance consists of a large number of operations, which, by their nature and conditions of performance, can be combined into certain groups, covering the cycle of maintenance work. In accordance with this, maintenance, regardless of its type, can be subdivided into the following main work: cleaning and washing and wiping (external care), fastening, diagnostic and adjusting, lubrication, tire and refueling work [1].
Regardless of the type of maintenance, the priority is cleaning and washing work, one of the tasks of which is to prepare the car for subsequent maintenance operations and give the car the proper appearance.
The bodywork, as well as the underside of the vehicle chassis, are particularly susceptible to contamination. Dirt interferes with maintenance on the underside of the vehicle.
When washing cars, dust and dirt from the outer parts of the body and chassis of the car is usually removed with clean cold and warm (plus 25-30oC) water. Sometimes water is used with the use of synthetic detergents: sulfonal or powder for washing a car (VTU No. 18/35 - 64).
Analysis and results
When loosely bound dust-like contaminants are washed off with a jet of water, fine (30 microns) dust particles remain on the polished surfaces of the body, which are retained in a thin water film and when it dries and leave a matte gray coating on the surface of the body. A similar phenomenon occurs when dense mud deposits with impurities of organic origin are washed away, which have high cohesion forces.
This film is difficult to influence even when using a high-pressure jet and is destroyed only as a result of mechanical action (with a brush, sponge or chamois leather).
The final wash station is intended for internal cleaning and blowing of machines and their final washing. It consists of posts for internal cleaning and final car wash.
The main task of the final washing point of a military unit is the high quality of the work performed with the lowest water consumption and the highest labor productivity.
To date, in the military units at the point of the final washing of cars, washing machines of the M-600, TsKB-1112, MM-1000/8, MP-800 brands (hereinafter referred to as old-style washing machines) are used [2, 3].
Currently, KARCHER K7 1.168-502.0 washing machines have been developed, created and widely used for washing equipment, which significantly save water consumption and the time spent on washing due to the supply of water from a small nozzle at high pressure (up to 30 times higher pressure than in machines old model).
Time for washing a car with a Carcher washing machine K 7 1.168-502.0 t = 8-10 min. (1.5 times less time allotted for washing a car using an old-style washer).
And if we take into account that the volume of consumed water per minute "Karcher" K 7 1.168-502.0 is only 10 liters, then only 80-100 liters of water will be required for a T-shirt of one car by Karcher.
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At the same time, washing one car with an old-style washing machine will take 15 minutes of time and from 750 to 2000 liters of water, as well as up to 10 times more electrical energy.
On average, every day, to ensure the life of the activities and combat training of units of military units, from 10 to 20 units of automotive equipment are used. There are 18-19 working days per month.
Let us determine the savings in water consumption per month Ve , when used in the military unit of the washing machine "Karcher" K 7 1.168-502.0, in relation to the old model washers. Let's assume the number of working days per month is 18, the number of operated machines per day is 20 units. Water consumption per day for one piece of equipment: when using an old-style washer Vc = 2000 l, and when using a washing machine "Carcher" K 7 1.168-502.0 Vk = 90 liters.
Let's determine the water consumption per month:
Vc =T*L*V1 = 18 * 20 * 2000 = 720 000 l.
Vk =T*L*V1 = 18 * 20* 90 = 32 400 l.
Where, T is the number of working days per month;
L is the number of machines in operation per day, units;
The volume of saved water per month will be VE = Vc - Vk = 720000 - 32400 = 687600 l., i.e. when using a Karcher-type washer, a military unit saves an average of 690 tons per month, usually of drinking water. Due to the decrease in the resources of suitable, especially drinking water, this is of great importance. In addition, a multiple reduction in electrical energy consumption and a 50% reduction in time consumption make the use of a Carcher-type washing machine obligatory at the points of clean washing of weapons and military equipment of a military unit.
Carcher-type washing machines, unlike old-style machines, are portable and this is another advantage, they can be used in the field after military exercises or other circumstances.
Let us analyze why Carcher-type washers have proven to be so beneficial in terms of saving water, time and energy.
An important factor in the washing process is the kinetic energy of the water
molecule. The higher this energy, the more easily the water molecules break the bond
between the dirt molecules. It is known from the course of hydraulics that the flow rate
of water Q, through the free section of the nozzle, is determined by the formula
n _ 60Fv _ 3nd2u
U — - — -, l / min
1000
200
(1)
where F is the free cross-sectional area of the nozzle, mm2; u is the speed of water outflow from the nozzle, m / s; d is the diameter of the nozzle outlet, mm. In turn, the speed of the outflow of water from the nozzle
v — , m /s
where g = 9.81 - acceleration of gravity, m / sec2;
(2)
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h - water pressure, m;
¡i - coefficient of efflux taken for nozzles with nozzles equal to 0.5 - 0.55, and without nozzles - 0.7 - 0.75.
As can be seen from the above formulas, by decreasing the nozzle diameter and increasing the water pressure (i.e., increasing the water flow rate from the nozzle), it is possible, while maintaining a constant flow rate, to obtain a jet with higher kinetic energy and, consequently, higher efficiency.
With an increase in the jet pressure for nozzles of the same diameter, the total water consumption for the wash is noticeably reduced, because water with high kinetic energy with less volume washes away dirt faster. An even greater effect is given by reducing the nozzle cross-section. This dependence allows us to conclude that an increase in the pressure of the water jet with a simultaneous decrease in the nozzle cross-section (to a certain value) increases the washing efficiency. This effect is used by motorists when washing a car, they reduce the cross-section of the hose outlet by covering the outlet with a finger.
60
\
„2
1 y
■ — —
5 15
Jet pressure, kg / cm2
25
Picture. The relationship between the pressure of the jet and the flow rate of water when washing one piece of equipment: 1 - nozzle diameter 2.5 mm; 2 - nozzle diameter 3.5 mm.
From the experimental data [4] it also follows that the washing efficiency is characterized by the amount and speed of water supplied to the contaminated surface, or the power of the water jet. Water jet power.
NC =Q h , m / sec
(3)
This expression shows that a jet of the same power can be obtained at different values of the flow rate and water pressure, i.e. with a small value of Q and a large value of h, or vice versa. This means that it is possible to regulate the kinetic energy flowing out of the water jet nozzle and by increasing the jet energy to increase the efficiency of cleaning dirty places.
Conclusion
Based on the above, the following conclusions can be drawn: the use of Karcher-
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type washing machines is an order of magnitude more economical compared to old-model washing machines and, in this regard, the use of Karcher-type machines in military units is mandatory;
Advantages of the Karcher type washing machine are based on increasing to a certain extent the kinetic energy of the water flowing out of the nozzle, which, possessing high energy, effectively breaks the sticky bonds of dirt, thereby easily washing it out and cleaning the surface. At the same time, reducing the nozzle diameter leads to a decrease in water consumption and an increase in the kinetic energy of water molecules.
References:
1. Kramarenko G.V. Tekhnicheskaya ekspluatatsiya avtomobiley [Technical maintenance of cars]. Uchebnik dlya vuzov [Textbook for universities]. 2-oe izd. pererab. i dop. [2nd edition revised and enlarged] - M.: Transport, 1983. -488 p. [in Russian].
2. Proyektirovaniye parkov voinskikh chastey (soyedineniya) [Design of parks of military units (formations)]: uch. posobiye [A Tutorial] / A.V. Kraynyukov, A.A. Kochurov, A.V. Kushnarev, V.V. Puchkov. - Ryazan', RVVDKU, 2011. - 200 p. [in Russian].
3. Yunusov M.R. Пособие по курсовому проектированию [Course design manual] : ucheb. posobiye [A Tutorial]. Izdaniye Tashkentskogo VOKU [Publication of the Tashkent HCACS], 2011. - 77 p. [in Russian].
4. https://stogear.pro/oborudovanie/obzor-10-luchshih-moek-vysokogo-davleniya-karcher.html (дата обращения [date of access] 22.04.2021 г.)
5. Janik, H., & Kupiec, A. (2007). Trends in Modern Car Washing. Polish Journal of Environmental Studies, 16(6).
6. Williams, A. (2006). Product-service systems in the automotive industry: the case of micro-factory retailing. Journal of cleaner production, 14(2), 172-184.
7. Boryaev, A., Malygin, I., & Marusin, A. (2020). Areas of focus in ensuring the environmental safety of motor transport. Transportation Research Procedia, 50, 68-76.
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