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Comparison Viessmann Vitodens 111-W B1LD029 19kW 19 kW vs Viessmann Vitodens 100-W WB1C102 19kW 19 kW

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Viessmann Vitodens 111-W B1LD029 19kW 19 kW
Viessmann Vitodens 100-W WB1C102 19kW 19 kW
Viessmann Vitodens 111-W B1LD029 19kW 19 kWViessmann Vitodens 100-W WB1C102 19kW 19 kW
from $1,900.00 up to $2,427.88
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Energy sourcegasgas
Installationwallwall
Typedual-circuit (heating and DHW)single-circuit (heating only)
Heating area152 m²152 m²
Condensing
Additional equipment
Built-in water heater tank
DHW tank volume46 L
Technical specs
Heat output19 kW19 kW
Power supply230 V230 V
Power consumption140 W88 W
Coolant min. T40 °С30 °С
Coolant max. T80 °С80 °С
Heating circuit max. pressure3 bar3 bar
DHW circuit max. pressure10 bar
Consumer specs
DHW min. T30 °С
DHW max. T60 °С
Performance (ΔT ~30 °C)16 L/min
"Summer" mode
Circulation pump
Control busOpenTherm
Boiler specs
Efficiency109 %108.4 %
Combustion chamberclosed (turbocharged)closed (turbocharged)
Flue diameter60/100 mm60/100 mm
Inlet gas pressure20 mbar20 mbar
Max. gas consumption2.61 m³/h1.9 m³/h
Expansion vessel capacity10 L8 L
Expansion vessel pressure0.75 bar
Connections
Mains water intake1/2"
DHW flow1/2"
Gas supply3/4"
Central heating flow3/4"
Central heating return3/4"
Safety
Safety systems
gas pressure drop
water overheating
flame loss
draft control
frost protection
gas pressure drop
water overheating
flame loss
draft control
frost protection
More specs
Dimensions (HxWxD)900x600x480 mm700x400x350 mm
Weight62 kg35 kg
Added to E-Catalogjune 2016december 2015

Type

Depending on the set of functions, boilers are divided into single-circuit and dual-circuit.

- Single-circuit boilers are equipped with one heat exchanger, in which the heat from fuel combustion is transferred to the heat medium of the heating system. The only function of such boilers is space heating. It is technically possible to use single-circuit boilers to provide hot water, but this requires an additional tank (the so-called indirect water heater).

- In dual-circuit boilers, the primary heat exchanger is supplemented by a secondary one. Due to this, such a boiler, in addition to heating the room, also provides a hot water supply. In this case, both running water and water accumulated in a special tank(see Built-in water heater tank) can be used.

Built-in water heater tank

The presence of a built-in water heater tank in the boiler — a storage tank for water used in the hot water supply system. For obvious reasons, this feature is found exclusively in dual-circuit boilers (see "Type"). It provides several advantages over a flow-through design (when the boiler heats water directly in the process of moving through the heat exchanger). Firstly, in the tank, you can constantly keep a supply of ready hot water, and use it even in case of interruptions in the water supply. Secondly, the temperature of the dispensed water is constant, while in instant heating devices fluctuations are possible when the water flow rate changes. Thirdly, the efficiency of work does not depend on the pressure in the water supply. On the other hand, this feature significantly affects the dimensions, weight and price of the boiler.

DHW tank volume

The volume of the DHW tank provided in the boiler.

In this case, we can talk about both built-in tanks (see above), and a separate device supplied in the kit. The first option is found in dual-circuit boilers, and the second is in single-circuit ones (see "Type"). Anyway, the larger the tank, the more water you can keep in reserve, but the larger and heavier the entire boiler or separate tank is. There are special methods that allow you to calculate the optimal tank capacity depending on the number and type of water points, the number of users, etc. Such methods are described in detail in special sources, but we note here that the average value is considered to be about 80 – 100 litres. It is enough for regular use by a family of 3 – 4 people.

Power consumption

The maximum electrical power consumed by the boiler during operation. For non-electric models (see Energy source), this power is usually low, as it is required mainly for control circuits and it can be ignored. Regarding electric boilers, it is worth noting that the power consumption in them is most often somewhat higher than the useful one since part of the energy is inevitably dissipated and not used for heating. Accordingly, the ratio of useful and consumed power can be used to evaluate the efficiency of such a boiler.

Coolant min. T

The minimum operating temperature of the heat medium in the boiler system when operating in heating mode.

DHW circuit max. pressure

The maximum pressure in the hot water circuit (DHW) at which it can operate for a long time without failures and damage. See "Heating circuit maximum pressure".

DHW min. T

The minimum temperature of domestic hot water (DHW) supplied by a dual-circuit boiler. For comparison, we note that water begins to be perceived as warm, starting from 40 °C, and in centralized hot water supply systems, the temperature of hot water is usually about 60 °C (and should not exceed 75 °C). At the same time, in some boilers, the minimum heating temperature can be only 10 °C or even 5 °C. A similar mode of operation is used to protect pipes from freezing during the cold season: the circulation of water with a positive temperature prevents the formation of ice inside and damage to the circuits.

It is also worth keeping in mind that when heated to a given temperature, the temperature difference ("ΔT") may be different — depending on the initial temperature of the cold water. And the performance of the boiler in the DHW mode directly depends on ΔT; see below for performance details.

DHW max. T

The maximum temperature of domestic hot water supplied by a dual-circuit boiler. For comparison, we note that water begins to be perceived as warm, starting from 40 °C, and in centralized hot water supply systems, the temperature of hot water is usually about 60 °C (and should not exceed 75 °C). Accordingly, even in the most modest models, this figure is about 45 °C, in the vast majority of modern boilers, it is not lower than 50 °C, and in some models, it can even exceed 90 °C.

Also when heated to a given temperature, the temperature difference ("ΔT") may be different — depending on the initial temperature of the cold water. And the performance of the boiler in the DHW mode directly depends on ΔT; see below for performance details.

Performance (ΔT ~30 °C)

The performance of a dual-circuit boiler in hot water mode when water is heated by approximately 30 °C above the initial temperature.

Performance is the maximum amount of hot water the unit can produce in a minute. It depends not only on the power of the heater as such, but also on how much water needs to be heated: the higher the temperature difference ΔT between cold and heated water, the more energy is required for heating and the smaller the volume of water with which the boiler can handle in this mode. Therefore, the performance of dual-circuit boilers is indicated for certain ΔT — namely 25 °C, 30 °C and/or 50 °C. And it is worth choosing according to this indicator, taking into account the initial water temperature and taking into account what kind of hot water demand there is at the installation site of the boiler (how many points of water intake, what are the temperature requirements, etc.). Recommendations on this subject can be found in special sources.

We also recall that water begins to be felt by a person as warm somewhere from 40 °C, as hot — somewhere from 50 °C and the temperature of hot water in central water supply systems (according to official standards) is at least 60 °C. Thus, for the boiler to operate in the mode ΔT ~ 30 °C and give out at least warm water at 40 °C, the initial temperature of cold water should be about 10 °C (10 + 30=40 °C). A similar temperature can be found in wells in the warm season, and cold water in the ce...ntralized water supply system often warms up to 10 °C in the warm season. However, boilers, including dual-circuit boilers, are switched on mainly in cold weather, when the initial water temperature is noticeably lower. Accordingly, if the boiler is used as the main water heater, heating to the claimed temperatures (see "DHW min. T", "DHW max. T") often requires a greater ΔT than 30 °C, and the performance is less than indicated in this paragraph. But when operating in the preheating mode (when the water is heated to the desired temperature by an additional device like a boiler), this parameter describes the capabilities of the unit very reliably.