Whitepapers

In this article you can read more about differential pressure controllers - how they work and what benefits they bring, the applications where they are used, the advantages for end-users and DH utility companies.

In the recent COP21 meeting in Paris a global agreement was signed with a goal of limiting the global warming to less than 2°C compared to pre-industrial levels. This is very ambitious goal and will require significant changes in the world energy structure. Read more in the article.

Increasing energy prices, together with more demands for comfort lead to further development of DH consumerend technologies. This development involves better controlling and metering possibilities, so heat supplied to the consumer is not wasted. Blocks of flats include a huge energy-saving potential, as they traditionally make up a big part of the DH consumers in most cities.

This paper describes the impact of using heat exchangers designed for operation at low supply temperature and at small logarithmic mean temperature difference (dT) compared to the level specified and applied today.

In this paper we present and analyse the feasibility of a district heating (DH) consumer unit with micro heat pump for domestic hot water (DHW) preparation in a low temperature (40°C) DH network.

The activities for building renovation within the rental area in multi - family residential buildings are increasing. This article describes a case story about modernization of a residential building complex initially equipped with a one -pipe system.

Danfoss has been marketing district heating pressure controller for decades, but it is only recently that we have seen an increasing number of inquiries around the question of pressure oscillation in the district heating network. We had carried out an extensive analysis in this area, read more in the article.

Today, around 10% of the world’s electricity production is used for air conditioning. According to international studies, the demand for cooling of commercial and residential buildings will grow exponentially in the years to come, especially in high-income countries and emerging economies in India, China and South America.

During the last two decades, the number of established district cooling systems has increased rapidly. This may be caused by the fact that today's district cooling systems are: • More economically attractive • More environmentally friendly • More efficient

The present paper describes the results from an investigation carried out in connection with the development of a new valve characteristic for motorized control valves for hot water service in district heating (DH) substations. From a theoretical point of view, the paper discusses basic control theories and physical relationships of crucial importance to this application, including the decisively important relationships between heat exchanger, controller, motor (actuator) and control valve. In addition to the theoretical analysis, the investigation is supported by dynamic simulations and results from laboratory experiments. The result of the investigation was the development of a new valve characteristic as described in this paper.

The present paper concerns the control of high-performance heat exchangers for hot water service. Some of the basic control theories and their decisively important relationships are analyzed from a theoretical point of view. A newly developed control is described, putting the various elements in the design into the perspective of control theory.

In an apartment building, the two main principal heat and domestic hot water (DHW) distribution methods are the riser pipe system and the decentralized system with flat stations. In the first case, the DHW system heat losses may be bigger than the net heat for preparing the DHW.

Danfoss proceeds on developing simulation models of HVAC components including control equipment that the company produces for central and district heating systems. In this paper some examples are given. The example of a simulated domestic hot water service station is presented.

The aim of this article is to give an economical evaluation of the two typical principles of preparing hot water (htw), focusing on the system as a whole.

This paper explains the nature of differential pressure controller in relation to oscillation. Some operative hints for eliminating or reducing pressure oscillations are presented. Thanks to the application knowledge in the field of differential pressure control, it is now possible to solve pressure oscillatory problems in already existing applications, and to offer specific advice regarding the right design of new applications in order to eliminate the risk of pressure oscillations. Read full paper to find out more.

In some countries the flat station concept is becoming a common way of realising heating and domestic hot water (dhw) installation in blocks of flats. Anyhow, in other countries it is at the very beginning. Experience from those countries reveal a number of questions when understanding and evaluating the flat station concept.

This whitepaper is intended to support heating professionals with creating complaint free and energy efficient two-pipe radiator heating systems in (multi-family residential) buildings. The guidelines are relevant for retrofit, renovation as well as new construction situations.

Autotuning: Adaptive setting of a domestic hot water service controller. Motor protection: Automatic setting of a controller during low performance. A precondition for a well functioning heating system is that the correct settings are made before it is put to use. Adjustments are necessary to preset the regulating parameters. This article deals with the way in which the automatic setting of system control parameters is performed and the advantages this gives.

This article describes the basic functionality of four control concepts, a thermostatic controller, a proportional controller and a parallel and serial coupling of those. The focus is on plate heat exchanger control, and the investigation is based on dynamic simulations, i.e. on models verified up against practical measurements.

Establishing a hydraulic balance in a system often is a matter of controlling the differential pressure to a level necessary for operating the substation and thereby also controlling the flow rate in individual branches. Controlling differential pressure and flow rate in the system can have advantages for customers and utilities.

In a HVAC system as well as in a process plant, a district heating and district cooling utility, periodical oscillation of the control loop might occur. It has several reasons. Non linearity of the process, excessive amplification of the controller and an oversized system are just few of the reasons.