S.3 Ökodesign und Energieverbrauchskennzeichnung
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The energy efficiency rating on the European Union energy label for cooking fume extractors is based on measurements of the flow rate and static pressure difference within the duct behind the cooking fume extractor according to standard EN 61591:1997/A12:2015 and regulation (EU) No 65/2014. These measurements do not enable a definite conclusion about the cooking fume extractor’s air purification performance.Measurements which evaluate the air purification performance directly would be more valuable for consumers.
In this thesis, a test method was developed that enables the energy efficiency rating of cooking fume extractors based on a direct measurement of the air purification by measuring the captured and filtered oil mist. The test method also enables the rating of cooking fume extractors that operate in recirculation mode, which is not possible using the current standard EN 61591:1997/A12:2015.
The performance rating based on removed oil mist requires a reproducible generation of oil mist. Furthermore, the generated oil mist should resemble the oil mist from common cooking scenarios to give meaningful performance ratings. The oil mist from the grease absorption test according to standard EN 61591:1997/A12:2015 was taken as a reference oil mist for common cooking scenarios. A round robin test revealed that the oil mist generation with the grease absorption test from the standard is not reproducible enough for performance tests. The oil mist generation with atomizer nozzles was found more suitable for the reproducible generation of an oil mist.
Two different atomizers were analyzed by measuring the properties of generated oil mist and by applying them in performance tests on cooking fume extractors. One “mantled atomizer” was bought from the market and one “open atomizer” was developed specifically for the test of cooking fume extractors.
It was found that an oil mist with similar properties compared to the reference oil mist can be generated with the design of the open atomizer. The proposed test method using the open atomizer led to a better repeatability compared to the grease absorption tests according to the current standard and has the potential to improve the reproducibility. The results suggest that the proposed test method could be used for standardized testing which would enable more meaningful energy efficiency ratings and the rating of cooking fume extractors that operate in recirculation mode.
Test methods for heat pumps
(2020)
Cost analysis of screening methods to find non-compliant models using the example of tumble dryers
(2019)
The European energy label was established to reduce energy consumption in Europe. All classes and values on the energy label are stated by the supplier. The task of market surveillance is to ensure correct labels and to validate their values through compliance tests. However, this can only be done for a small fraction of all models on the market, since physical tests are expensive. Screening methods can be used to narrow down the number of critical products before compliance tests are done to decrease the costs of finding non-compliant models.
This study shows a mathematical approach to analyze the cost benefits of screening methods to find non-compliant models. Furthermore, the analysis presented has been applied to 18 screening methods for tumble dryers. The performance test for tumble dryers consists of seven test runs. All screening methods evaluated are composed of a reduced number of test runs. The most efficient screening method reduces the surveillance costs by 40 %.
Minimum energy performance standards and labels are commonly used tools to reduce the household energy use thus mitigating greenhouse gas emissions. However, the technical foundation for minimum energy performance standards and labels are test procedures for rating and testing of appliances. To de- termine the seasonal cooling performance of air conditioners, the current test standards require fixing of the compressor speed of the units to achieve steady-state conditions; this way of operation, how- ever, differs from real-life use. To make the seasonal cooling performance testing better reflect the real use conditions, this study proposes a compensation method which can be conducted independently from manufacturer data and still allows modulation of the tested units. Our results show that the tested units behave differently under part-load conditions, which results in a lower energy efficiency rating for some of the tested devices.
To determine the seasonal performance of heat pumps for energy labelling this study proposes a two-point-method that could conceivably be an alternative to the European standard EN 14825 and similar test standards such as ISO 13256. Heat pumps were tested in line with the EN 14825. The reduction of measurement points, from between five to seven (EN 14825) to only two (two-point-method), leads to 60 % savings in cost and time. It is shown that the shortened method can be used to determine the seasonal energy efficiency of heat pumps with the same degree of precision compared to EN 14825.
To determine the seasonal performance of heat pumps for energy labelling this study proposes a two-point-method that could conceivably be an alternative to the European standard EN 14825 and similar test standards such as ISO 13256. Heat pumps were tested in line with the EN 14825. The reduction of measurement points, from between five to seven (EN 14825) to only two (two-point-method), leads to 60 % savings in cost and time. It is shown that the shortened method can be used to determine the seasonal energy efficiency of heat pumps with the same degree of precision compared to EN 14825.
The growing market penetration of heat pumps indicates the need for a performance test method that better reflects the dynamic behavior of heat pumps. In this contribution, we developed and implemented a dynamic test method for the evaluation of the seasonal performance of heat pumps by means of laboratory testing. Current standards force the heat pump control inactive by fixing the compressor speed. In contrast, during dynamic testing, the compressor runs unfixed while the heat pump is subjected to a temperature profile. The profile consists of the different outdoor temperatures of a typical heating season based on the average European climate and also includes temperature changes to reflect the dynamic behavior of the heat pump. The seasonal performance can be directly obtained from the measured heating energy and electricity consumption making subsequent data interpolation and recalculation with correction factors obsolete. The method delivers results with high precision and high reproducibility and could be an appropriate method for a fair rating of heat pumps.
The energy label is a tool that informs the consumer about the energy consumption of certain appliances. The tumble dryer is one of these appliances that were considered relevant for receiving an energy label in the European Union. All classes and values on the energy label are stated by the manufacturers. In order to guarantee that the manufacturers do not cheat and appliances are labeled correctly, the stated values are checked by the market surveillance of each country in compliance verification tests. However, in the case of tumble dryers these compliance verification tests are very expensive and can only be realized for a small sample size out of models which are available on the market. The fewer compliance verification tests are carried out, the higher is the chance that there are incorrectly labeled appliances on the market. Therefore, a modification of the test standard for tumble dryers has been analyzed which would reduce the costs of a performance test by at least 11 %.