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Котлы ВПКГ описание


Предлагаем Вашему вниманию уникальную отечественную разработку - газовые котлы ВПКГ (водогрейные поверхностно-контактные газовые) производства ООО ЭНЕРГОТЕХМОНТАЖ-ХОЛДИНГ

В отличие от котельных с традиционными котлами  котельные с котлами ВПКГ имеют повышенную надежность при эксплуатации и обладают неоспоримыми преимуществами.

Котлы ВПКГ - это 100% РОССИЙСКИЙ ТОВАР. 
РАЗРАБОТАНО, ЗАПАТЕНТОВАНО И ПРОИЗВЕДЕНО В РОССИИ.

     

О котлах ВПКГ
 Про котёл ВПКГ
 Фактические показатели работы котлов ВПКГ-0,5
 Размеры котлов ВПКГ
 Лист подбора горелок
 Инструкция по монтажу и эксплуатации котлов ВПКГ


Сертификаты

 Сертификат - котлы ВПКГ
 Сертификат ISO

 Сертификат ISO работы

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Предложение о сотрудничестве по внедрению котлов ВПКГ

 Предложение по покупке или аренде котельной на базе котлов ВПКГ 


Запросы по тех. характеристикам котлов ВПКГ, предложения о сотрудничестве, покупке и аренде направляйте по электронной почте etmh@yandex.ru или по телефону (495) 554-67-47


 

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КПА 500-Лучшая цена! Достойное качество! 



Мы продаем трубные части (змеевики) для котлов КПА-500.
На сегодняшний день в России лидером по производству змеевиков для котлов КПА-500, ЗИО-60, скважинных кессонов, газовых котлов ВПКГ и другого котельного оборудования является наша компания -
                       
ООО "ЭНЕРГОТЕХМОНТАЖ-ХОЛДИНГ" 
   Каждый изготовленный змеевик  проходит серию технических испытаний полностью исключающих брак. Купив у нас змеевик для котла КПА-500 вы получаете качественный сертифицированный товар с гарантией производителя ООО "ЭНЕРГОТЕХМОНТАЖ-ХОЛДИНГ"

Заказать продукцию, получить консультации можно  отправив нам запрос на e-mail  etmh@yandex.ru



Кессоны для скважин


                                                                
Уважаемые покупатели, у нас всегда в наличии металлические кессоны предназначенные для обустройства водоносных скважин в частных жилых домах и на приусадебных участках. Вашему вниманию предлагаются металлические кессоны с круглой горловиной и без а так же кессоны изготовленные по индивидуальным чертежам заказчика.
Покупая кессоны у нас Вы гарантированно получаете качественный товар, подтвержденный  сертификатами ООО ЭНЕРГОТЕХМОНТАЖ-ХОЛДИНГ
  


 

ООО "Энерготехмонтаж-Холдинг" 

Карточка предприятия

Полное название фирмы:
Общество с ограниченной ответственностью "ЭНЕРГОТЕХМОНТАЖ-ХОЛДИНГ"

Краткое название фирмы:
 
ООО "ЭНЕРГОТЕХМОНТАЖ-ХОЛДИНГ"

Юридический адрес: 
140014, Московская обл., г. Люберцы, 1-ый Панковский проезд, д. 21

Фактический адрес: 
140014, Московская обл., г. Люберцы, 1-ый Панковский проезд, д. 21

ИНН
5027130013

КПП
502701001

Расчетный счет
40702810900000024940 в Филиале №7701 Банка  ВТБ (ПАО) в г. Москве

БИК
044525745

Корреспондентский счет
30101810345250000745

ОГРН
1075027017922  от  24.12.2007 г.

ОКАТО
46448000000

ОКТМО
46748000001


Генеральный директор:
 
Медведев Геннадий Степанович

Контакты: 
раб. тел: (495) 554-67-47
моб. тел: (926) 379-36-47

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 Учредительные документы (архив rar)



ООО "Энерготехмонтаж-Холдинг" 

Учредительные документы
 
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ООО "Энерготехмонтаж-Холдинг"
 
Продажа котельного оборудования


   
    Наша компания - ООО "ЭНЕРГОТЕХМОНТАЖ-ХОЛДИНГ" изготавливает, реализовывает и ремонтирует котлы ВПКГ, ЗИО-60, НР-18, ТВГ, ДКВР, КПА-500, а также трубные части этих котлов.

    Конденсационный котел ВПКГ (водогрейный поверхностно-контактный газовый) - 100% российский товар, разработан, запатентован и производится в России!

    Котельные с котлами ВПКГ предназначены для автономного снабжения теплом и горячей водой жилых, административных и производственных зданий. По месту размещения котельные могут быть выполнены крышными, пристроенными, встроенными и отдельно стоящими.

    Котельные работают по 4-х трубной схеме в режиме теплового пункта с параметрами теплоносителя 95/70 градусов С.

    В отличие от котельных с традиционными котлами (ЗИО-САБ, Турботерм, Viessmann и др.) котельные на базе котлов ВПКГ имеют повышенную надежность при эксплуатации и обладают целым рядом преимуществ.

    Помимо котлов ООО "ЭНЕРГОТЕХМОНТАЖ-ХОЛДИНГ" непрерывно производит и реализовывает теплообменники, змеевики, трубные части, щиты автоматики, деаэраторы, водонапорные башни, дымоходы, газоходы, дымовые трубы, металлические кессоны, емкости, запасные части к котлам.


Мы с радостью полностью обеспечим Ваши потребности в этой продукции!



Boilers VPKG - is condensing surface-contact gas-fired boilers of VPKG models.

 

100% OF RUSSIAN GOODS. DESIGNED, PATENTED AND MANUFACTURED IN RUSSIA.

 

Boilers with boilers VPKG designed for autonomous supply heat and hot water to residential, administrative and industrial buildings. Location boiler can be performed roof, attached, built-in and free standing.

Boilers operate on 4-pipe scheme in the mode of thermal paragraph with parameters coolant 95/70°C.

Unlike boilers conventional boilers (ZIO-SW, Turbotherm, Viessmann, ICI CALDAIE, etc.) boilers with boilers VPKG have increased reliability and offer the following advantages:

 

  1. During the construction of the new boiler from boilers VPKG:
  • the boiler has a simple design and its manufacture using cost-effective materials, resulting in its cost on average lower by 20-25%;
  • as boilers VPKG dimensions (plan) is less than traditional boilers, the cost of the boiler room cheaper by 30-35%;
  • because of the low temperature flue flue gas and low emission boilers ITCH not require high chimneys, the cost of their device are reduced by 80% than in the boiler room with other boilers;
  • when installing boilers VPKG does not require the installation of foundations, which also provides cost savings in the amount of 3-5%;
  • application of domestic burners on boilers VPKG saves 30 to 50% of the funds in comparison with imported;
  • for the preparation of source water is not required deaerator, because the water in the boiler VPKG has a constant temperature of ≈ 100°C;
  • for boilers VPKG not need chemical preparing of water.

 

2. When operation of boiler from boilers VPKG:

  • annual average boiler efficiency - 108,75%, annual savings of fuel not less than 70 of equivalent fuel per 1 mW of installed capacity;
  • deaeration of the water in the boiler does not require maintenance costs of the deaerator;
  • deep cooling of the combustion products of the heated water leads to condensation of water vapor from flue gases (1,4 kg of condensate per 1 m3 of combustion gas), which contributes to a significant reduction, and the complete absence of expenses for the preparation of demineralized water;
  • emissions reduced in 3 times;
  • low temperature leaving flue gases ≈ +5°C to the temperature of flue gas;
  • as boilers VPKG operate at atmospheric pressure, they are intrinsically safe;
  • high maintainability boilers provided free access to any site and unit. For reference: Partial renovation of the pilot of this series took after 10 years of operation.
  • simple design boilers VPKG does not require for their operation a high professional skills.

The above gives the right with full confidence that the cost of produced boilers VPKG heat in 2-2,5 times less than the existing state tariffs, and the cost of the boiler 20-30% below the cost of traditional boilers.

 

1. Field of application.

 

The heating gas boiler with a set of boilers: 0.25 Gkal/hour (0,29 MW); 0,5 Gcal/h (0,58 MW); 1,0 Gcal/h (1,16 MW); 2,5 Gcal/h (2.9 MW); 4,0 Gcal/hour (with 4.64 MW): attached, built in, roof-mounted and free-standing "shoulder" to 500m., working on schedule 95/70°C, the system of heat supply - 4 pipe.

 

  1. A brief description of the current level of the boiler equipment.

 

Presented on the market of heating equipment of domestic and foreign models of heating boilers with capacity from 0.25 to 4.0 Gcal/hour structurally designed according to the same scheme (gastromy type), which have very similar characteristics of metal, size and thermal engineering excellence (efficiency - 89...93%), which underlines that this plan has reached a certain limit and further improvement of the characteristics of boilers of this design concept is hardly possible. The efficiency of these boilers can be achieved either through the development of surface heating, which will lead to the growth of metal, size and power consumption to overcome the resistance of the gas tract; or by the intensification of heat transfer, which also will lead to increased energy costs. These alternatives are not economically wealthy.

It would seem to be achieved in the boilers efficiency might seem quite satisfactory, if not have in mind alternative gastrobium boilers.

 

And here we must bear in mind the following:

  • natural gas is the main fuel for heating boilers, refers to non-renewable raw materials;
  • the cost of natural gas is constantly growing;
  • inefficient use of natural gas directly has a negative impact on the cost of all consumer goods.

From the above it follows that the savings of natural gas is the most important economic task of strategic importance.

Back to the estimate of thermal perfection of heating boilers. If you calculate boiler efficiency -92% lower (visible) heat of combustion at the highest (full) the calorific value of natural gas, the efficiency is not so great - all of 82.5%. This means that the under-utilization of the heat of combustion of 17.5%. This task is solved boilers VPKG, as well as the task of fuel-efficient heating technologies.

 

  1. The offered products.

 

Boilers hot-water surface-contact gas (VPKG) represent a special class of water-heating devices that use two methods of heat transfer between the liquid and gases embodied in the following two, one after the other, the steps of heating water:

1. Preliminary stage - on the surface of the ceramic heat-recovery nozzles by direct contact of the heated water with the combustion product (contact method);

2. The second step is heating the water up to barometric boiling point, and deaeration it in a heat-transfer surface of the water-cooled combustion chamber and convection Gastronome beam.

In boilers ITCH heat transfer between environments is at atmospheric pressure.

The successful combination of the two methods of heat transfer allows you to have all modes of production water, appropriate standards for the quality network water at ratio of temperature combustion of the fuel at 15 - 17% higher than traditional boilers (visible efficiency = 108,72% Qн or 97,3% Q).

Higher utilization of the heat of combustion of fuel in boilers ITCH is achieved by deep cooling of the combustion products of the heated water on the surface of the contact nozzle, resulting in part of the water vapor contained in the gases is condensed and the latent heat of condensation is used to heat water. At the same time and feeding the heated water condensate from the products of combustion. The amount of transferred heat by condensation depends on the temperature of the source of feed water, and the lower the price, the higher the efficiency of the process as a whole.

Boiler ITCH (Fig.1) consists of a vertical cylindrical body placed in it a water-cooled furnace chamber, equipped with a gas-burning device and above her contact utilizing the nozzle of ceramic Raschig rings. On the combustion chamber in the upper conical cap welded pipe convective Gastronome beam, and the upper ends of the pipes displayed on one horizontal plane and have no limits at temperature expansion. Perimeter Gastronome beam below the upper ends of the pipes installed cylindrical wall, providing a level in the heating zone of water and its overflowing into the sump water production. Directly above gas trobium connective beam under the contact nozzle installed video training visor, designed to stand-pipe flowing from the contact nozzle of the water and prevent it from falling into the beam pipe.

 

3. The offered products.

Boilers hot-water surface-contact gas (VPKG) represent a special class of water-heating devices that use two methods of heat transfer between the liquid and gases embodied in the following two, one after the other, the steps of heating water:

1. Preliminary stage - on the surface of the ceramic heat-recovery nozzles by direct contact of the heated water with the combustion product (contact method);

2. The second step is heating the water up to barometric boiling point, and deaeration it in a heat-transfer surface of the water-cooled combustion chamber and convection Gastrube beam.

In boilers VPKG heat transfer between environments is at atmospheric pressure.

The successful combination of the two methods of heat transfer allows you to have all modes of production water, appropriate standards for the quality network water at ratio of temperature combustion of the fuel at 15 - 17% higher than traditional boilers (visible efficiency = 108,72% Qн or 97,3% Q).

Higher utilization of the heat of combustion of fuel in boilers VPKG is achieved by deep cooling of the combustion products of the heated water on the surface of the contact nozzle, resulting in part of the water vapor contained in the gases is condensed and the latent heat of condensation is used to heat water. At the same time and feeding the heated water condensate from the products of combustion. The amount of transferred heat by condensation depends on the temperature of the source of feed water, and the lower the price, the higher the efficiency of the process as a whole.

Boiler VPKG consists of a vertical cylindrical body placed in it a water-cooled furnace chamber, equipped with a gas-burning device and above her contact utilizing the nozzle of ceramic Raschig rings. On the combustion chamber in the upper conical cap welded pipe convective Gastronome beam, and the upper ends of the pipes displayed on one horizontal plane and have no limits at temperature expansion. Perimeter Gastronome beam below the upper ends of the pipes installed cylindrical wall, providing a level in the heating zone of water and its overflowing into the sump water production. Directly above gastrobium convective beam under the contact nozzle installed visor, designed to standpipe flowing from the contact nozzle of the water and prevent it from falling into the beam pipe.

 

 

The process of heating water in the boiler according to the following scheme. Feed water through the water distribution device (system of perforated pipes) is applied to the contact surface of the nozzle, where it is pre-heating in contact with a gas mixture consisting of products of combustion cooled in Gastronom convective beam, and flash steam from the boiling water. Pre-heated water through standpipes pipes is given in the lower part of the cavity formed by the casing of the boiler and combustion chamber, and lifting consistently heated from the wall of the combustion chamber and tubes convective Gastronome beam to barometric boiling point and boiling. Boiling water is provided "extra" surface heat convection Gastronome beam. The heated water flows through an overflow baffle in the sump water production, where it is given to the consumer.

Fuel-saving technology heating is provided with installation of boiler VPKG heat-recovery heat exchanger hot water VPKG needs. Since the exhaust gases from the boiler WPKG have 100% humidity, at the entrance of the heat recovery heat exchanger immediately begins the process of condensation of water vapor from gases, thereby significantly intensified heat transfer and does not require cumbersome heating surface. Heated in the heat-recovery heat exchanger water comes to a final heating-up to 60°C DHW heat exchanger and drained, and then is pumped to consumers. The temperature in the network of hot water is constant and maintained at 60°C.

 

Table III. Specifications model number of boilers VPKG.

 

Name

 

VPKG - 0,25

VPKG

VPKG

VPKG

VPKG

Note

1

2

3

4

5

6

7

Nominal thermal capacity Gcal/h (MW)

 

0,25

(0,29)

0,5

(0,58)

1,0

(1,16)

2,5

(2,9)

4,0

(4,64)

 

Fuel type

 

Natural gas (LPG), LNG

 

 

Type furnace

 

 

Type burners

 

In accordance with the design documentation

 

 

Nominal flow other gas

(Qн = 8 550 Ккал/м³)

33,0

66,0

131,5

329

526

 

The pressure of the other gas at the burner

middle

middle

middle

middle

middle

 

Low

Low

Low

Low

low

Operating pressure of the water in the boiler

atmosphere

 

This model the resistance of the boiler, kg/m3

No more 40

 

The temperature of the heated water leaving the boiler, °С

tкип = 100

 

The average efficiency in the operation of combined heat

(ОТ и Г.В.), %

108,5

 

The average annual consumption of other gas (Qн = 8 850 Ккал/м³)

107,8

 

Overall dimensions of the boiler:

 

- the diameter of the furnace part, мм.

 

- the diameter of the contact part, мм.

- height, мм

 

 

920

 

920

 

3500

 

 

1204

 

1208

 

3580

 

 

1550

 

1550

 

4280

 

 

2514

 

2510

 

6200

 

 

2404

 

3212

 

7070

 

                 

 

Table IV. Comparative table value boilers VPKG with boilers minimum price categories.

 

Model

Power, KWt

Price, USD

                              

The cost of similar boilers of other manufacturers

ICI CALDAIE

(Italy)

ЗИОСАБ

БКМЗ

КСВа

РЭМЭКС

Турботерм

VPKG-0,25

300

2 850

5 760

3 150

4 300

3 500

VPKG-0,5

600

4 800

9 900

5 500

5 100

6 750

VPKG-1,0

1200

10 000

17 200

10 800

10 600

12 000

VPKG-2,5

2900

18 200

38 150

24 660

19 000

27 000

VPKG-4,0

4700

44 500

90 000

47 150