Heating release by a passing scheme or loop of the Tichelman

For a house to remain both cozy and energy-efficient, insulation and heating are essential. In order to maximize the efficiency of their heating systems, homeowners are continuously looking for novel solutions due to the rising costs of energy and the expanding concern for environmental sustainability. The Tichelman loop is a heating release system that has gained popularity due to its distinct advantages and effectiveness.

The Tichelman loop, created by engineer Arno Tichelman, works on a straightforward but brilliant principle: it uses the natural circulation of hot water to effectively distribute heat throughout a home instead of depending only on conventional heating techniques. This creative method reduces energy use and increases heating efficiency, which helps homeowners save money in the long run.

The Tichelman loop operates by supplying hot water through pipes that are placed inside a building’s walls or floors, forming a continuous circuit. The water progressively releases heat as it circulates, warming the area around it. The Tichelman loop uses convection currents instead of forced air or radiators, which is how traditional heating systems distribute heat throughout the house, preventing cold spots and guaranteeing constant comfort.

The Tichelman loop’s capacity to function at lower temperatures than conventional heating systems is one of its main advantages. The loop is a more environmentally friendly choice since it uses lower water temperatures, which minimizes heat loss and lowers energy consumption. Beyond just providing warmth, radiant heat also has the advantage of improving indoor air quality and lowering dust circulation.

To ensure optimal performance, careful planning and installation are necessary when implementing a Tichelman loop. Optimizing the system’s efficiency and reducing heat loss require proper building envelope insulation. To further improve the effectiveness of the loop and help stabilize indoor temperatures, thermal mass components like walls or floors can be added.

To sum up, if homeowners want to increase the comfort and efficiency of their heating systems, the Tichelman loop offers a convincing solution. This creative method offers substantial advantages in terms of energy savings, environmental impact, and general comfort by utilizing radiant heat and natural circulation. The Tichelman loop is a viable alternative for contemporary homes as the need for sustainable heating solutions grows.

Heating Release Tichelman Loop
Efficient distribution of heat Uses a loop system to evenly distribute heat throughout the house

The main types of heating

A one -pipe heating system delivers the coolant from the boiler to the first radiator, from which a slightly cooled coolant gets into the next and so on along the chain. Reducing the temperature from the radiator to the radiator, the coolant returns back to the boiler. As a result, the first radiators in the chain have the highest temperature, and the latter, respectively, the coldest. They try to solve this problem with the installation on radiators of additional regulatory reinforcement and change the diameter of the pipes, equip bypas and increase the size of the batteries at the end to increase heat transfer. The one -pipe system is economical when purchasing and editing, since there are not many pipes and other consumables, which means the installation price will also be lower. However, in large buildings, where the installation of a large number of radiators is required, this scheme leveles the efficiency of the best and economical boilers, forcing them to work at the maximum, and at the same time to receive a dramatically cooled coolant and cold batteries in the “return” in terms of heated rooms.

The two -pipe system provides for the simultaneous supply of hot coolant from the boiler through a common “hot” pipe (collector) individually for each of the radiators. At the same time, each radiator is not connected by its individual “output” to the next radiator, but to another pipe – the “return”, to which the “outputs” of all other radiators are connected. Thus, there is a simultaneous “collection” of the cooled coolant from each of these radiators to a common circuit that returns the coolant back to the boiler for heating. Theoretically, this allows each radiator to receive the coolant of the same high temperature, and instead of transferring it to the already cooled by the next radiator, immediately give it to the “return”.

However, with the practical implementation of this scheme, a number of problems arose. First of all, in the classic two -pipe system, the first radiator for the receipt of the coolant was the first and “surrender” in the “return”, and the last radiator that received the coolant also became the last and on the “return” too. The scheme actually turned out to be a dead end, and the best circulation of the coolant occurred on the first radiator, and the worst, predictable, on the latter – in the "dead end". In the fight against this drawback, various diameters of the pipes were combined, setting pressure limiters, increased the size of the "dead end" radiators, but they could not boast of too significant. In addition, a two -pipe system is noticeably more expensive and more complicated in installation than one -pipe, and in terms of the number of necessary pipes, and in their different diameter, and, if necessary, to acquire various kinds of regulatory valves.

The decision of Albert Tichelman

In 1901, German engineer Albert Tichelman proposed applying the so -called “Reverse type” return system, changing the principle of operation of the “Reverse”. Which subsequently received the name heating by the loop of the tichelman (passing scheme). According to his idea, the first radiator to receive hot coolant became the last in the “Return”, and the first in the “return” (the closest to the boiler) received exactly the same hot coolant to the last. As a result, the circulation of the coolant in the entire circuit improved, and the same warming up of all radiators was ensured, the need for additional regulatory reinforcement and the acquisition of radiators of different sizes was disappeared, the coolant received light flow conditions, and the heating boilers were finally able to show their real effectiveness.

The sole issue was that, in 1901, this system could only operate strictly horizontally—that is, in one-story buildings. But since circulation pumps were invented, forcing coolant through the system by force, the two-pipe heating system has revealed itself in all its splendor.

The new benefits of this scheme are revealed by modern distribution collectors, which enable you to combine it with the standard radiators and a water floor system for one house.

The need to purchase additional large-diameter pipes in addition to the main, which comes with additional costs, is one of the disadvantages of Tichalman’s heating scheme.Another drawback is that when designing, one should consider the architectural features of a private home, as obstacles such as doorways and other architectural forms may become in the way of implementing the scheme.

Our primary thesis in the article about "Heating and Insulation of the House" is an investigation of the Tichelman loop heating system. This creative method uses a continuous loop or circuit to effectively distribute heat throughout the house. Homeowners can choose the best insulation and heating solutions by being aware of how this system operates and its advantages. We’ll explore the underlying theories of the Tichelman loop, as well as its benefits for comfort and energy efficiency, as well as useful implementation tips. In the end, we want to give readers insightful advice on how to maximize their homes’ heating systems while advancing economy and sustainability.

The pluses of the scheme

An increasing number of private home owners choose to install heating systems in accordance with the Tichelman passing scheme. This is not unexpected because it offers a lot of benefits.

  • Probably the most important advantage of this method is that such a heating system allows all heating devices to work as efficiently as possible.
  • For example, the supply and reverse highways are connected together, going in one direction of the radiator chain, the heat of the heat of each subsequent radiator decreases, the latter may even remain cold;
  • Pipes go along two separate chains in one direction, the efficiency of radiators becomes noticeably higher, continuing to decrease;
  • Thanks to the loop of the Tichalman, radiators are 100%capable of working;
  • The system is adaptive, small and large premises of household or industrial purposes are suitable for installation;
  • Each radiator gives the same amount of heat, so the room warms up evenly;
  • The method is easy to perform, has no difficult stages, it is only important to follow the technology;
  • There is the possibility of installing additional heating devices;
  • Since the radiators are already balanced, it is not required to waste time balancing for the sake of uniform heating, the installation of the system does not require the purchase of any additional elements;
  • Heating installed according to the scheme of Tichelman will last a very long time.

The Tichelman’s primary heating system

The disadvantages of the scheme

  • Heating according to the Tichelman scheme is not cheap, the system requires a rather long length of pipelines, so for the sake of convenience you will have to lay out a certain amount. This is the most significant minus;
  • Laying a heating system according to this scheme causes many problems due to interfering architectural features of the premises (doorways, for example). It is because of this moment that the loop of Tichelman can not be laid;
  • This scheme is held horizontally. Paying the heating system vertically, you will have to use other schemes.

There are several advantages to installing the Tichelman loop heating system for insulation and home heating. This system minimizes heat loss and maximizes energy efficiency through the use of a closed loop design. Even during the coldest months, the constant flow of hot water guarantees uniform warmth throughout the house.

The Tichelman loop’s capacity to provide even heating throughout the house is one of its main benefits. In contrast to conventional heating systems, which might cause an uneven distribution of temperature, the loop design makes sure that every room gets the same amount of warmth, resulting in an atmosphere that is comfortable for residents.

The Tichelman loop also encourages cost savings by lowering energy usage. Thanks to its effective heat transfer system and well-balanced circulation, homeowners can keep their interior temperature comfortable and their utility costs down. By reducing energy waste, this helps the environment sustainably in addition to being economical.

Apart from its capacity to provide warmth, the Tichelman loop system also improves the home’s insulation. It helps to prevent heat loss and maintain a constant temperature by continuously circulating warm water through pipes embedded in walls and floors, which lessens the need for additional insulation materials.

All things considered, the Tichelman loop heating system is a wise purchase for homeowners trying to raise the comfort and energy efficiency of their houses. It provides a dependable option for insulation and warmth throughout the year thanks to its creative design and efficient heat distribution.

Video on the topic

Tichelman loop, two -pipe heating system, for a two -story house made of aerated concrete.

Tichelman loop – it is forbidden to do it!

Tichelman loop does not work poor installation of the heating system

Balancing of the loop of the Tichelman or a passing system. Practice.

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Anna Vasilieva
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