교육기관 및 관련기관 소개Education institute and Associated institute

[관련기관] 마음공간 심리치료연구센터 2015-07-22

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Jameslek 2018-01-09 05:32:39
A boiler is a closed vessel where water or other liquid is heated. The fluid does not boil. (In THE UNITED STATES, the word "furnace" is normally used if the reason is not to boil the fluid.) The heated or vaporized liquid exits the boiler for use in various procedures or heating applications,[1][2] including drinking water heating, central heating, boiler-based power generation, cooking, and sanitation.

Materials
The pressure vessel of a boiler is usually manufactured from steel (or alloy steel), or of wrought iron historically. Stainless steel, especially of the austenitic types, is not used in wetted parts of boilers due to corrosion and stress corrosion cracking.[3] However, ferritic stainless steel is often used in superheater sections that won't be exposed to boiling water, and electrically heated stainless shell boilers are allowed under the European "Pressure Equipment Directive" for creation of steam for sterilizers and disinfectors.[4]
[url=https://en.wikipedia.org/wiki/Boiler]https://en.wikipedia.org/wiki/Boiler[/url]
In live steam models, copper or brass is often used because it is more fabricated in smaller size boilers easily. Historically, copper was often used for fireboxes (especially for vapor locomotives), because of its better formability and higher thermal conductivity; however, in newer times, the high price of copper often makes this an uneconomic choice and cheaper substitutes (such as metal) are used instead.

For a lot of the Victorian "age group of steam", the only materials used for boilermaking was the highest grade of wrought iron, with assembly by rivetting. This iron was from specialist ironworks, such as at Cleator Moor (UK), mentioned for the high quality of their rolled plate and its suitability for high-reliability use in critical applications, such as high-pressure boilers. In the 20th century, design practice instead moved towards the utilization of steel, which is more powerful and cheaper, with welded building, which is quicker and requires less labour. It should be mentioned, however, that wrought iron boilers corrode far slower than their modern-day steel counterparts, and are less susceptible to localized pitting and stress-corrosion. This makes the durability of old wrought-iron boilers much superior to those of welded metal boilers.

Cast iron might be used for the heating vessel of domestic drinking water heaters. Although such heaters are usually termed "boilers" in some countries, their purpose will be to produce warm water, not steam, and so they run at low pressure and stay away from boiling. The brittleness of cast iron makes it impractical for high-pressure steam boilers.
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Energy
The source of heating for a boiler is combustion of some of several fuels, such as wood, coal, oil, or natural gas. Electric steam boilers use level of resistance- or immersion-type heating system elements. Nuclear fission is also used as a heat source for producing steam, either straight (BWR) or, in most cases, in specialised warmth exchangers called "vapor generators" (PWR). Warmth recovery steam generators (HRSGs) use heat rejected from other processes such as gas turbine.

Boiler efficiency
there are two methods to measure the boiler efficiency 1) direct method 2) indirect method

Direct method -direct approach to boiler efficiency test is more usable or more common

boiler efficiency =Q*((Hg-Hf)/q)*(GCV *100 ) Q =Total vapor movement Hg= Enthalpy of saturated vapor in k cal/kg Hf =Enthalpy of feed water in kcal/kg q= quantity of gasoline use in kg/hr GCV =gross calorific value in kcal/kg like pet coke (8200 kcal/KG)

indirect method -to gauge the boiler efficiency in indirect method, we need a subsequent parameter like

Ultimate analysis of energy (H2,S2,S,C moisture constraint, ash constraint)
percentage of O2 or CO2 at flue gas
flue gas temperature at outlet
ambient temperature in deg c and humidity of air in kg/kg
GCV of gas in kcal/kg
ash percentage in combustible fuel
GCV of ash in kcal/kg
Configurations
Boilers can be classified into the following configurations:

Container boiler or Haycock boiler/Haystack boiler: a primitive "kettle" where a open fire heats a partially filled drinking water box from below. 18th century Haycock boilers produced and stored large quantities of very low-pressure steam generally, often hardly above that of the atmosphere. These could burn off wood or most often, coal. Efficiency was suprisingly low.
Flued boiler with a couple of large flues-an early type or forerunner of fire-tube boiler.

Diagram of the fire-tube boiler
Fire-tube boiler: Here, drinking water partially fills a boiler barrel with a little volume remaining above to accommodate the vapor (vapor space). This is the kind of boiler used in almost all steam locomotives. Heat source is inside a furnace or firebox that has to be held completely surrounded by the water in order to keep up the temp of the heating surface below the boiling point. The furnace can be situated at one end of a fire-tube which lengthens the path of the hot gases, thus augmenting the heating system surface which may be further increased by causing the gases invert direction through a second parallel tube or a bundle of multiple pipes (two-pass or come back flue boiler); additionally the gases may be studied along the edges and then beneath the boiler through flues (3-pass boiler). In case of a locomotive-type boiler, a boiler barrel expands from the firebox and the hot gases go through a lot of money of fire tubes inside the barrel which greatly increases the heating surface in comparison to a single pipe and further boosts heat transfer. Fire-tube boilers have a comparatively low rate of vapor creation usually, but high steam storage capacity. Fire-tube boilers mostly burn off solid fuels, but are easily adaptable to people of the liquid or gas variety.

Diagram of a water-tube boiler.
Water-tube boiler: In this type, pipes filled up with water are arranged inside a furnace in a genuine amount of possible configurations. Often the water pipes connect large drums, the low ones containing water and top of the ones water and steam; in other cases, such as a mono-tube boiler, drinking water is circulated by a pump through a succession of coils. This type gives high vapor creation rates generally, but less storage capacity than the above. Water tube boilers can be designed to exploit any warmth source and tend to be preferred in high-pressure applications because the high-pressure water/steam is contained within small diameter pipes which can withstand the pressure with a thinner wall structure.
Flash boiler: A flash boiler is a specialized type of water-tube boiler in which tubes are close collectively and water is pumped through them. A flash boiler differs from the kind of mono-tube vapor generator in which the pipe is permanently filled with water. Super fast boiler, the tube is held so hot that water feed is quickly flashed into vapor and superheated. Flash boilers got some use in cars in the 19th century which use continued into the early 20th century. .

1950s design steam locomotive boiler, from a Victorian Railways J class
Fire-tube boiler with Water-tube firebox. Sometimes the two above types have been combined in the next manner: the firebox includes an assembly of water tubes, called thermic siphons. The gases pass through a conventional firetube boiler then. Water-tube fireboxes were installed in many Hungarian locomotives,[citation needed] but have met with little success in other countries.
Sectional boiler. Inside a ensemble iron sectional boiler, sometimes called a "pork chop boiler" the water is included inside cast iron areas.[citation needed] These areas are assembled on site to generate the finished boiler.
Safety
See also: Boiler explosion
To define and secure boilers safely, some professional specialized organizations like the American Society of Mechanical Designers (ASME) develop criteria and regulation rules. For example, the ASME Boiler and Pressure Vessel Code is a typical providing an array of guidelines and directives to ensure compliance of the boilers and other pressure vessels with protection, design and security standards.[5]

Historically, boilers were a way to obtain many serious injuries and property destruction as a consequence to badly understood engineering principles. Thin and brittle metal shells can rupture, while welded or riveted seams could start poorly, resulting in a violent eruption of the pressurized steam. When drinking water is changed into vapor it expands to over 1,000 times its original quantity and travels down vapor pipes at over 100 kilometres per hour. Because of this, vapor is a great way of moving energy and heat around a site from a central boiler house to where it is necessary, but without the right boiler feed water treatment, a steam-raising herb are affected from level corrosion and formation. At best, this increases energy costs and can lead to poor quality vapor, reduced efficiency, shorter vegetation and unreliable operation. At worst, it can lead to catastrophic failing and loss of life. Collapsed or dislodged boiler pipes can also squirt scalding-hot vapor and smoke out of the air intake and firing chute, injuring the firemen who insert the coal into the open fire chamber. Extremely large boilers providing hundreds of horsepower to use factories could demolish entire buildings.[6]

A boiler which has a loss of feed water and is permitted to boil dry out can be hugely dangerous. If give food to drinking water is then sent into the bare boiler, the small cascade of incoming water instantly boils on contact with the superheated steel shell and leads to a violent explosion that cannot be managed even by safety steam valves. Draining of the boiler can also happen if a leak occurs in the steam supply lines that is larger than the make-up water source could replace. The Hartford Loop was developed in 1919 by the Hartford Vapor Boiler and INSURANCE PROVIDER as a strategy to assist in preventing this problem from happening, and therefore reduce their insurance promises.[7][8]

Superheated steam boiler

A superheated boiler on a steam locomotive.
Main article: Superheater
Most boilers produce vapor to be used at saturation heat; that is, saturated vapor. Superheated steam boilers vaporize water and then further warmth the vapor in a superheater. This provides vapor at higher heat range, but can reduce the overall thermal efficiency of the steam generating herb because the higher vapor temperature takes a higher flue gas exhaust temperature.[citation needed] There are several ways to circumvent this issue, typically by giving an economizer that heats the feed water, a combustion air heating unit in the hot flue gas exhaust path, or both. A couple of advantages to superheated vapor that may, and will often, increase overall efficiency of both steam generation and its own utilization: gains in input heat range to a turbine should outweigh any cost in additional boiler complication and expense. There may be practical restrictions in using damp vapor also, as entrained condensation droplets will harm turbine blades.

Superheated steam presents unique safety concerns because, if any operational system component fails and allows steam to escape, the ruthless and temperature can cause serious, instantaneous injury to anyone in its path. Since the escaping steam will at first be completely superheated vapor, detection can be difficult, although the intense heat and sound from such a leak indicates its presence clearly.

Superheater operation is similar to that of the coils on an air conditioning unit, although for a different purpose. The vapor piping is directed through the flue gas path in the boiler furnace. The heat in this field is typically between 1,300 and 1,600 °C (2,372 and 2,912 °F). Some superheaters are glowing type; that is, they absorb temperature by rays. Others are convection type, absorbing temperature from a liquid. Some are a combination of the two types. Through either method, the extreme heat in the flue gas path will heat the superheater steam piping and the steam within also. While the heat of the steam in the superheater goes up, the pressure of the vapor does not and the pressure remains exactly like that of the boiler.[9] Virtually all steam superheater system designs remove droplets entrained in the steam to avoid harm to the turbine blading and associated piping.

Supercritical steam generator

Boiler for a charged power herb.
Main article: Supercritical steam generator
Supercritical steam generators are used for the production of energy frequently. They operate at supercritical pressure. In contrast to a "subcritical boiler", a supercritical vapor generator operates at such a high pressure (over 3,200 psi or 22 MPa) that the physical turbulence that characterizes boiling ceases to occur; the fluid is neither liquid nor gas but a super-critical liquid. There is no generation of vapor bubbles within water, because the pressure is above the critical pressure point at which vapor bubbles can develop. As the liquid expands through the turbine levels, its thermodynamic state drops below the critical point as it does work turning the turbine which converts the power generator from which power is ultimately extracted. The liquid at that time may be considered a mix of steam and liquid droplets as it goes by in to the condenser. This leads to slightly less gasoline use and therefore less greenhouse gas production. The term "boiler" should not be used for a supercritical pressure steam generator, as no "boiling" occurs in this device.
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Accessories
Boiler accessories and fittings
Pressuretrols to regulate the vapor pressure in the boiler. Boilers generally have 2 or 3 3 pressuretrols: a manual-reset pressuretrol, which functions as a safety by setting top of the limit of steam pressure, the operating pressuretrol, which settings when the boiler fires to keep pressure, and for boilers equipped with a modulating burner, a modulating pressuretrol which controls the quantity of fire.
Security valve: It is utilized to relieve pressure and stop possible explosion of the boiler.
Water level indicators: They show the operator the amount of liquid in the boiler, known as a view glass also, water gauge or water column.
Bottom blowdown valves: They provide a way for removing solid particulates that condense and lay on underneath of the boiler. As the name indicates, this valve is usually located directly on the bottom of the boiler, and is sometimes opened up to use the pressure in the boiler to drive these particulates out.
Constant blowdown valve: This enables a small quantity of water to flee continuously. Its purpose is to avoid the water in the boiler becoming saturated with dissolved salts. Saturation would lead to foaming and cause drinking water droplets to be carried over with the steam - a condition known as priming. Blowdown is often used to monitor the chemistry of the boiler drinking water also.
Trycock: a kind of valve that is often use to manually check a water level in a tank. Most entirely on a drinking water boiler commonly.
Flash container: High-pressure blowdown enters this vessel where the vapor can 'flash' safely and be found in a low-pressure system or be vented to atmosphere while the ambient pressure blowdown flows to drain.
Automatic blowdown/continuous heat recovery system: This technique allows the boiler to blowdown only once makeup water is flowing to the boiler, thereby transferring the maximum amount of heat possible from the blowdown to the make-up water. No flash container is normally needed as the blowdown discharged is near to the heat range of the makeup water.
Hand openings: They are metal plates installed in openings in "header" to permit for inspections & installation of pipes and inspection of internal surfaces.
Vapor drum internals, some screen, scrubber & cans (cyclone separators).
Low-water cutoff: It really is a mechanical means (usually a float switch) that is utilized to turn off the burner or shut down gas to the boiler to prevent it from working once the water goes below a certain point. If a boiler is "dry-fired" (burnt without water in it) it can cause rupture or catastrophic failure.
Surface blowdown collection: It offers a means for removing foam or other lightweight non-condensible chemicals that tend to float together with water inside the boiler.
Circulating pump: It is made to circulate drinking water back again to the boiler after it has expelled some of its heat.
Feedwater check valve or clack valve: A non-return stop valve in the feedwater line. This may be fitted to the relative side of the boiler, below the water level just, or to the very best of the boiler.[10]
Top give food to: With this design for feedwater injection, water is fed to the top of the boiler. This may reduce boiler fatigue caused by thermal stress. By spraying the feedwater over a series of trays water is quickly warmed which can reduce limescale.
Desuperheater tubes or bundles: A series of tubes or bundles of pipes in water drum or the vapor drum designed to cool superheated steam, in order to provide auxiliary equipment that will not need, or may be damaged by, dry out steam.
Chemical injection line: A connection to add chemicals for controlling feedwater pH.
Steam accessories
Main vapor stop valve:
Steam traps:
Main vapor stop/check valve: It is used on multiple boiler installations.
Combustion accessories
Gas oil system:gas oil heaters
Gas system:
Coal system:
Soot blower
Other essential items
Pressure gauges:
Feed pumps:
Fusible plug:
Inspectors test pressure gauge attachment:
Name plate:
Registration dish:
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Irinarerly 2018-07-01 12:50:11
Металлические строительные леса
Леса из стальных или алюминиевых труб производятся промышленным способом в двух основных вариантах — рамные и модульные. К рамным относятся флажковые, штыревые леса и вышки-туры, к модульным — клиновые, хомутовые, подвесные (крепление к несущим конструкциям зданий) и модульные (системные) леса. Конструкция строительных лесов, не зависимо от их типа, должна соответствовать ГОСТ 27321-87, ГОСТ 24258-88 и храниться по ГОСТ 15150-69.
Где можно найти и строительные леса оптом от производителя купить
Важно: прежде, чем перейти к подробному описанию металлических строительных лесов, нужно отметить сразу — все они требуют анкерного крепления к стене здания, вдоль или вокруг которого выставляются! Наибольшая высота, на которую возможно вывести строительные леса без крепления к стене здания, не должна превышать 4 м и только при условии, если площадка, на которой выстраиваются леса — идеально горизонтальна и утрамбована, обязательно организован отвод дождевых вод. Не соблюдение этого правила приведет к опрокидыванию или обрушению всей конструкции лесов.
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DanielIndug 2018-08-21 17:49:25
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likaTot 2018-08-24 21:05:38
Монтаж рамных строительных лесов осуществляют согласно правил по установки и подразделяют на несколько операций:
• разметка основания, на котором будут размещена та или иная конструкция и ее планировка;
• также леса строительные минск
• ознакомление рабочих с конструкцией, проведение инструктажа по ее сборке, креплению и по технике безопасности;
• раскладка элементов конструкции по периметру установки;
• размещение в необходимых местах подъемных механизмов, если они будут использоваться при сборке конструкции;
• проверка каждого элемента, как и щитов настила на предмет выявления повреждений;
• установка первого яруса;
• сборка оставшихся ярусов с их креплением;
• окончание работ с установкой молниеотводов и их заземлением.
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Stephenlef 2018-09-18 06:48:04
• разметка основания, на котором будут размещена та или иная конструкция и ее планировка;
• также строительные леса
• ознакомление рабочих с конструкцией, проведение инструктажа по ее сборке, креплению и по технике безопасности;
• раскладка элементов конструкции по периметру установки;
• размещение в необходимых местах подъемных механизмов, если они будут использоваться при сборке конструкции;
• проверка каждого элемента, как и щитов настила на предмет выявления повреждений;
• установка первого яруса;
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ivanbeletskiy 2019-02-15 06:38:49
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Профессиональный ремонт электро котлов в Липецке и Липецкой области. Мы используем свой большой опыт и современное оборудование для того чтобы отремонтировать ваш газовый котел. Наша главная отличительная черта что мы работаем на результат и отвечаем за качество проделанных работ пред каждым своим клиентом, минимальная  гарантия на проделанные работы от 6 месяцев.
Мы работаем с кассовым аппаратом и выдаем чек и акт на выполненные работы на месте у заказчика.
Для Вашего удобства мы подключили телефон 8(4742)527-002, по которому вы можете бесплатно для Вас позвонить и получить консультацию специалиста. В нашем штате сотрудников нет диспетчеров, на все интересующие Вас вопросы ответит опытный специалист. В предварительной консультации по телефону мы уточним модель и марку котла, зададим несколько вопросов об основных признаках(проявлениях) неисправности для того чтобы взять необходимые запчасти(комплектующие) и по возможности отремонтировать за один приезд.
Экономим Ваше время и деньги.

Сервисный центр ГАЗлайф - динамично развивающаяся Липецкая компания, у нас собственный склад запасных частей и современное оборудование для точной диагностики неисправности и ее устранения.

Мы обладаем всеми необходимыми удостоверениями, допусками и лицензиями и готовы предоставить их по первому требованию клиента! 


3 основных правила нашей компании :

1) "Бесплатный сыр только в мышеловке " - выезд специалиста по Липецку 350р. по Липецкой области +20 р/км

2) Мы не ремонтируем котлы "методом тыка" , под замену идут только неисправные детали

3) Мы работаем со своими клиентами напрямую  "без посредников"  Подробнее:
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Техническое обслуживание настенного котла 2500
Стоимость ТО в пределах города
Диагностика 350 1000
стоимость диагностики в пределах города
Выезд по г. Липецк 350
Выезд за пределы г. Липецк 20
За 1 км пути в одну сторону
Замена датчика температуры 250 1750
Замена трансформатора 250 900
Замена манометра 150 1000
Замена аварийного клапана 450 1500
Замена электронного модуля 500 2000
Замена патрубка подачи(обратки) котла 350 2000
Замена мембранного бака 700 1700
Ремонт сбросного клапана 350 700
Замена пьезоэлемента 150 450
Замена вентилятора 500 1400
Замена реле давления 500 1000
Замена газовой арматуры 700 1900
с регулировкой давления газа
Электронным манометром
Замена датчика тяги 150 750
Замена пресостата воздуха 450 950
Замена устройсва Вентури 600 1300
Замена датчика протока 1000 2500
Замена комнатного термостата (пульта управления) 500 1500
Замена воздухоотводчика 250 1250
Установка и подключение стабилизатора 250 500
Чистка вентилятора 950 1450
Замена горелки в настенном котле 1200 1500
Настройка газового клапана 1200
Замена настенного котла
(демонтаж и монтаж) 5000 10000
Ремонт газовых колонок (ВПГ)
Выезд по г. Липецк 350
Выезд за пределы г. Липецк 20 р. за 1 км пути в одну сторону
Диагностика газовой колонки 350
Замена датчиков 150 450
Замена мембраны водяного узла 350 1200
Замена аварийного термостата 250
Замена датчика тяги 250
Замена водяного узла( в сборе) 500 1200
Замена газового узла 500 1200
Замена водяного и газового узла 1200
Замена теплообменника 900 1500
Ремонт АОГВ
Диагностика 350 1000
стоимость диагностики в пределах города
Выезд по г. Липецк 350
Выезд за пределы г. Липецк 20
За 1 км пути в одну сторону
Настройка запальника 500
Замена автоматики 1000 2300
Замена датчика тяги 250
Замена аварийного термостата 250
Замена запальника
(пилотной горелки) 400 950
Замена термопары 250 500
Комплексная чистка 1000 2500
Ремонт напольных котлов Protherm и Baxi
Техническое обслуживание напольного котла 3500
Стоимость ТО в пределах города
Диагностика 350 1000
стоимость диагностики в пределах города
Выезд по г. Липецк 350
Выезд за пределы г. Липецк 20
За 1 км пути в одну сторону
Замена датчика температуры 250 1750
Замена трансформатора розжига 250 900
Замена манометра 150 1000
Замена аварийного клапана 450 1500
Замена электронного модуля 500 2000
Замена мембранного бака 700 1700
Ремонт сбросного клапана 350 700
Замена пьезоэлемента 150 450
Замена реле давления 500 1000
Замена газовой арматуры 700 1900
с регулировкой давления газа
Электронным манометром
Замена датчика тяги 150 750
Замена комнатного термостата (пульта управления) 500 1500
Замена воздухоотводчика 250 1250
Установка и подключение стабилизатора 250 500
Замена горелки в напольном котле 1400 1900
Настройка газового клапана 1200
Установка Турбонаставки 1800 Подробнее:
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