Your search keyword '"Pfafferott, Jens"' showing total 5 results

1. Assessing energy and thermal comfort of different low-energy cooling concepts for non-residential buildings.

Author

Salvalai, Graziano, Pfafferott, Jens, and Sesana, Marta Maria

Subjects

*THERMAL comfort, *ENERGY consumption, *COOLING, *NONRESIDENTS, *ENERGY consumption of buildings

Abstract

Highlights: [•] Impact of five cooling technologies are simulated in six European climate zones with Trnsys 17. [•] The ventilation strategies reduce the cooling energy need even in South Europe climate. [•] Constant ventilation controller can lead to a poor cooling performance. [•] Comparing radiant strategies with air conditioning scenario, the energy saving is predicted to within 5–35%. [ABSTRACT FROM AUTHOR]

Published

2013

2. Free-running temperature and potential for free cooling by ventilation: A case study

Author

Inard, Christian, Pfafferott, Jens, and Ghiaus, Christian

Subjects

*PASSIVE solar air conditioning systems, *OFFICE buildings, *VENTILATION, *COOLING, *CASE studies, *ENERGY consumption, *TEMPERATURE, *AIR flow, *THERMAL comfort

Abstract

Abstract: Free-cooling by ventilation is one of the most energy efficient techniques for cooling. When ventilation is used for cooling, variable airflow rates should to be used in order to achieve comfortable room temperatures and to minimize the energy demand for mechanical ventilation. Thus, free-cooling, requires, obviously, the existence of a potential for cooling and needs control mechanisms for the airflow. In this study, the free cooling potential by ventilation for office buildings is evaluated by the free-running temperature. The free-running temperature approach is based on the energy balance of heat gains and losses. It is adapted to evaluate the potential for free cooling by ventilation of office buildings for which the gains through the walls are negligible as compared to the internal and solar gains. The free-running temperature of each office room considers solar and internal heat gains, outdoor temperature, indoor temperatures and ventilation air flow rates. The approach is applied to 14 office rooms in a passively cooled office building in Germany and is used to estimate the potential and to evaluate the total energy saving by free cooling by ventilation. The good fit between monitoring data and calculation procedure proves that the free cooling potential can be accurately estimated by using the difference between the comfort limits, i.e. the target value of the indoor temperature, and the free-running temperature. [Copyright &y& Elsevier]

Published

2011

3. Energy and efficiency analysis of environmental heat sources and sinks: In-use performance

Author

Kalz, Doreen E., Pfafferott, Jens, Herkel, Sebastian, and Wagner, Andreas

Subjects

*ENERGY consumption, *HYDRAULICS, *HEATING, *RENEWABLE energy sources, *THERMAL comfort, *ARCHITECTURE & energy conservation, *GEOTHERMAL resources, *TEMPERATURE

Abstract

Abstract: A detailed analysis of the heating and cooling performance of environmental heat sources and sinks is presented for 12 low-energy buildings in Germany. In particular, the analysis focuses on the given temperature levels and the efficiency performance of the environmental heat sources and sinks in summer and winter. The investigated buildings employ environmental heat sources and sinks – such as the ground, groundwater, rainwater and the ambient air – in combination with thermo-active building systems (TABS). These concepts are promising approaches for slashing the primary energy use of buildings without violating occupant thermal comfort. A limited primary energy use of about 100kWhprim/(mnet 2 a) as a target for the complete building service technology (HVAC and lighting) was postulated for all buildings presented. With respect to this premise, comprehensive long-term monitoring in fine time-resolution occurred over a period from two to five years. An accompanying commissioning of the building performance took place. Measurements include water supply and return temperatures of the environmental heat sources/sinks, the generated heating and cooling energy, efficiencies of the system, and local climatic site conditions. The comparative evaluation of the systems in all buildings identifies weak points and success factors of the plant. Besides, it characterizes the single component and points out further potential for optimization measures. The annual efficiency performance of the geothermal heat sources and sinks results in a seasonal performance factor of 8–10kWhtherm/kWhend, where the end energy use is electricity. The ground, groundwater, rainwater and even the ambient air constitute efficient heat sources/sinks. Energy is needed only for distributing the heat and cold and not for its generation. The choice of suitable plant components, the accurate design of the hydraulic system and the correct dimension of the environmental heat source/sink play a central role in achieving higher efficiencies. [Copyright &y& Elsevier]

Published

2011

4. Energy efficient office buildings with passive cooling – Results and experiences from a research and demonstration programme

Author

Voss, Karsten, Herkel, Sebastian, Pfafferott, Jens, Löhnert, Günter, and Wagner, Andreas

Subjects

*OFFICE buildings, *ENERGY consumption, *VENTILATION, *COOLING, *DAMPNESS in buildings

Abstract

Abstract: To gain access to information on energy use in office buildings, the German Federal Ministry for Economy launched an intensive research and demonstration programme in 1995. In advance of the 2002 EU energy performance directive a limited primary energy coefficient of about 100kWhm−2 a−1 as a goal for the complete building services technology was postulated (HVAC+lighting) for all demonstration buildings to be supported. A further condition was that active cooling be avoided. Techniques such as natural or mechanical night ventilation or heat removal by slab cooling with vertical ground pipes as well as earth-to-air heat exchangers in the ventilation system were applied. An accompanying research was established to keep track of the results and the lessons learned from about 22 demonstration buildings realized and monitored until the end of 2005. As one outcome this paper summarises the energy performance of a selection of characteristic buildings together with an overview on the summer thermal comfort situations achieved. The research program will proceed during the next five years. Detailed reports and future results may be downloaded from the internet: www.enbau-monitor.de. [Copyright &y& Elsevier]

Published

2007

5. Energy efficiency and hygrothermal performance of hemp clay walls for Moroccan residential buildings: An integrated lab-scale, in-situ and simulation-based assessment.

Author

Es-sakali, Niima, Charai, Mouatassim, Idrissi Kaitouni, Samir, Ait Laasri, Imad, Mghazli, Mohamed Oualid, Cherkaoui, Moha, Pfafferott, Jens, and Ukjoo, Sung

Subjects

*ENERGY consumption, *SUSTAINABILITY, *DWELLINGS, *THERMAL comfort, *THERMAL conductivity, *COMMERCIAL buildings, *COUNTRY homes, DEVELOPING countries

Abstract

Hemp-based building envelopes have gained significant popularity in developed countries, and now the trend of constructing houses with hemp-clay blocks is spreading to developing countries like Morocco. Investigating the hygrothermal behavior of such structures under actual climate conditions is essential for advancing and promoting this sustainable practice. This paper presents an in-depth experimental characterization of a commercial hemp-clay brick that has been exposed to the outdoor environment for four years, in addition to field measurements on a building scale demonstration prototype. Additionally, the study simulates 17 representative cities to assess the hygrothermal performance and energy-saving potential in each of Morocco's six existing climate zones, using the EnergyPlus engine. The experimental campaign's findings demonstrate excellent indoor air temperature and relative humidity regulation within the hemp-clay wall building, leading to satisfactory levels of thermal comfort within hemp-clay wall buildings. This is attributed to the material's good thermal conductivity and excellent moisture buffering capacity (found to be 0.31 W/mK and 2.25 g/m2%RH), respectively). The energy simulation findings also point to significant energy savings, with cooling and heating energy reductions ranging from 27.7% to 47.5% and 33.7% to 79.8%, respectively, as compared to traditional Moroccan buildings. [Display omitted] • Experimental characterization of thermal conductivity, sorption isotherm, and moisture buffering capacity of hemp bricks. • Assessment of indoor thermal comfort and energy demand in a hemp-based building across 17 cities in Morocco. • Hemp-clay bricks demonstrated excellent humidity regulation with a moisture buffer capacity of 2.25 g/m2%RH. • Hemp-clay walls can achieve energy savings ranging from 27.7%–47.5% for cooling and 33.7%–79.8% for heating in Morocco. [ABSTRACT FROM AUTHOR]

Published

2023