Daniel Eggert scite author profile

Evaporation in solar thermal collectors normally takes place when the collector pump is not running—the so-called full stagnation. But it is possible that part of the heat transfer fluid evaporates inside a solar thermal collector field although the pump is operating and the collector field outlet temperature is significantly below the evaporation temperature. This operating status is called partial stagnation since only parts of the collector are affected by evaporation. Partial stagnation happens at a pronounced nonuniform temperature distribution in combination with a low mass flow rate and/or a high temperature level. A main reason for an irregular temperature distribution is a nonuniform flow distribution inside the solar thermal system. The paper presents an experimental investigation that analyzes the reasons and effects of partial stagnation occurrences. For this, outdoor measurements were made with a direct-flow vacuum tube collector. Criteria that promote partial stagnation have been identified, such as a coaxial tube design, a low system pressure, and a high gas content of the fluid. Performance measurements show no efficiency reduction during partial stagnation in the system investigated at a horizontal or positive collector slope. A high degree of partial stagnation, however, might pass into a complete evaporation of the collector volume although the collector pump is still running. This could lead to a complete blockage of the flow and a high thermal load of the system components. In all cases, partial stagnation leads to an unstable operation and a high load of the collector fluid and should, therefore, be avoided by design measures. A minimized risk for evaporation during operation is achieved by a more equal flow distribution inside the collector and the whole collector field, air bubbles, and solid particles should be completely removed. In addition, the gas content dissolved in the fluid may be reduced and the system pressure level may be increased in order to raise the boiling temperature.

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Investigation of the Reduced Performance of a Collector Array with Direct Flow Vacuum Tubes

Buchholz¹,

Glembin²,

Eggert³

2010

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Partial Stagnation in Direct Flow Vacuum Tube Collectors: Conditions for Occurrence, Risks and Consequences

Glembin¹,

Eggert²,

Scheuren³

et al. 2010

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Efficient Design of Solar Assisted Heating Systems for Multi-Family Houses

Backes¹,

Adam²,

Wirth³

et al. 2018

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Hydraulic concepts for solar heat appliances to support heating and domestic hot water in multi-family houses (solar combisystems) are investigated and compared by means of simulations and hardware-in-the-loop tests. The aim is to find best-practice solutions. The standard for new constructions of multi-family housing is a central buffer storage system with fresh water station, but hot water storage systems are also used. Hydraulic concepts found in market research are compared concerning their efficiency, costs and complexity. Solar combisystems with fresh water stations are not very complex, offer high energy savings and the lowest heat generation cost: 0,19 €/kWh. This makes it the best practice concept for solar combisystems in multi-family houses.

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Daniel Eggert

Energetic and Economic Efficiency Evaluation of Solar Assisted Heating Systems for Multi-Family Houses

Evaporation in Solar Thermal Collectors During Operation—Reasons and Effects of Partial Stagnation

Investigation of the Reduced Performance of a Collector Array with Direct Flow Vacuum Tubes

Partial Stagnation in Direct Flow Vacuum Tube Collectors: Conditions for Occurrence, Risks and Consequences

Efficient Design of Solar Assisted Heating Systems for Multi-Family Houses

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