Your search keyword '"Erhorn, H."' showing total 155 results

151. Passive Solarenergienutzung in bewohnten Eigenheimen. Meßergebnisse und energetische Analyse für das Solarhaus in Landstuhl

Author

Reiß, J., Erhorn, H., Oswald, D., and Publica

Published

1989

152. Cost-efficient nearly zero-energy buildings (NZEBs)

Author

Gaetano Fasano, Heike Erhorn-Kluttig, Hans Erhorn, Michele Zinzi, Benedetta Mattoni, Kim Bjarne Wittchen, K. Engelund Thomsen, Micha Illner, Marko Jacimovic, Marjana Šijanec-Zavrl, Ove Mørck, M. Sanchez Mayoral Gutierrez, Erhorn-Kluttig, H., Erhorn, H., Illner, M., Engelund Thomsen, K., Wittchen, K., Morck, O., Sanchez Mayoral Gutierrez, M., Zinzi, M., Mattoni, B., Fasano, G., Sijanec-Zavrl, M., and Jacimovic, M.

Subjects

zero energy buildings, Zero-energy building, Cost Reduction, cost benefit analysis, energy efficiency, life cycle, Cost efficiency, Low-energy buildings, 020209 energy, 02 engineering and technology, 010501 environmental sciences, 7. Clean energy, 01 natural sciences, Automotive engineering, Cost reduction, cost efficient, 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, 0105 earth and related environmental sciences

Abstract

The next level of energy performance of new buildings within the European Union will be the Nearly Zero-Energy Building (NZEB). A lot of work has been spent on pilot and demonstration buildings on this and even higher energy performance levels throughout many EU countries. However, most of the high performance buildings realised so far result in additional investment costs when compared to the current national minimum energy performance requirements. The considerably higher investment costs are one of the main barriers to the early application of the NZEB-level in Europe. The EU Horizon 2020 project CoNZEBs works on technical solution sets that result in lower investment costs for NZEBs, bringing the costs close to those of conventional new buildings. The project focus is on multi-family houses. In each of the four participant countries Germany, Denmark, Italy and Slovenia a team of researchers is analysing which sets of market-ready technologies at the building envelope, the services systems for heating, domestic hot water, ventilation and cooling (where required) in combination with renewable energy systems can fulfil the NZEB requirements at lower costs than those incurred by the national mainstream NZEB application. Additional efforts are being spent on the life-cycle costs and the life-cycle analysis of the solution sets, as well as on the impact of future developments of primary energy factors, energy costs and technology efficiencies. Since details of the CoNZEBs work are presented in several additional papers, this document gives an overview of the different tasks and results that are available so far. The next level of energy performance of new buildings within the European Union will be the Nearly Zero-Energy Building (NZEB). A lot of work has been spent on pilot and demonstration buildings on this and even higher energy performance levels throughout many EU countries. However, most of the high performance buildings realised so far result in additional investment costs when compared to the current national minimum energy performance requirements. The considerably higher investment costs are one of the main barriers to the early application of the NZEB-level in Europe. The EU Horizon 2020 project CoNZEBs works on technical solution sets that result in lower investment costs for NZEBs, bringing the costs close to those of conventional new buildings. The project focus is on multi-family houses. In each of the four participant countries Germany, Denmark, Italy and Slovenia a team of researchers is analysing which sets of market-ready technologies at the building envelope, the services systems for heating, domestic hot water, ventilation and cooling (where required) in combination with renewable energy systems can fulfil the NZEB requirements at lower costs than those incurred by the national mainstream NZEB application. Additional efforts are being spent on the life-cycle costs and the life-cycle analysis of the solution sets, as well as on the impact of future developments of primary energy factors, energy costs and technology efficiencies. Since details of the CoNZEBs work are presented in several additional papers, this document gives an overview of the different tasks and results that are available so far.

Published

2019

153. End-users' opinion on living in multi-family nearly zero-energy buildings

Author

Kirsten Engelund Thomsen, Michele Zinzi, Gaetano Fasano, Micha Illner, Hans Erhorn, Benedetta Mattoni, Kim Bjarne Wittchen, Marjana Šijanec Zavrl, Miriam Sanchez Mayoral Gutierrez, Marko Jacimovic, Ove Mørck, Heike Erhorn-Kluttig, Zavrl, M. S., Jacimovic, M., Erhorn-Kluttig, H., Erhorn, H., Illner, M., Thomsen, K. E., Wittchen, K., Morck, O., Gutierrez, M. S. M., Zinzi, M., Mattoni, B., and Fasano, G.

Subjects

zero energy buildings, Architectural engineering, air quality, end users, Zero-energy building, Apartment, Low-energy buildings, business.industry, End user, Information quality, Directive, User benefits, User experience design, user experience, 11. Sustainability, business

Abstract

The paper presents the findings on end-users' experiences and expectations about living in multi-family Nearly Zero-Energy Buildings (NZEBs). The survey in four European countries (Slovenia, Italy, Denmark and Germany) was part of EU Horizon 2020 project CoNZEBs (2017-2019) and addressed end-users living or thinking about living in multi-family NZEBs. Targeted end-users were living (as tenants or owners) in either ordinary buildings or in high performance buildings such as NZEBs (mandatory after 2020 according to Directive 2010/31/EU). In the survey, the following topics were addressed: the level of end-user's understanding of the NZEB concept, the source and quality of information on NZEB from the end-users' perspective, the importance of various apartment features for the end-users, perception of NZEB characterizing technologies, and decision triggers for living in NZEB. Concerns, doubts and eventual fears about living in NZEBs were studied to enable a tailored information for future end-users, to increase the demand for NZEB and beyond NZEB buildings and to improve their acceptability. To facilitate the living in NZEBs a guide for end-users was developed, explaining the "Myths" about NZEBs as well as presenting testimonials of current NZEB users in four participating countries. The paper presents the findings on end-users' experiences and expectations about living in multi-family Nearly Zero-Energy Buildings (NZEBs). The survey in four European countries (Slovenia, Italy, Denmark and Germany) was part of EU Horizon 2020 project CoNZEBs (2017-2019) and addressed end-users living or thinking about living in multi-family NZEBs. Targeted end-users were living (as tenants or owners) in either ordinary buildings or in high performance buildings such as NZEBs (mandatory after 2020 according to Directive 2010/31/EU). In the survey, the following topics were addressed: the level of end-user's understanding of the NZEB concept, the source and quality of information on NZEB from the end-users' perspective, the importance of various apartment features for the end-users, perception of NZEB characterizing technologies, and decision triggers for living in NZEB. Concerns, doubts and eventual fears about living in NZEBs were studied to enable a tailored information for future end-users, to increase the demand for NZEB and beyond NZEB buildings and to improve their acceptability. To facilitate the living in NZEBs a guide for end-users was developed, explaining the "Myths" about NZEBs as well as presenting testimonials of current NZEB users in four participating countries.

Published

2019

154. Solutions sets for cost optimisation of nearly zero energy buildings (NZEBs) in four European countries

Author

Hans Erhorn, Heike Erhorn-Kluttig, Gaetano Fasano, Miriam Sanchez Mayoral Gutierrez, Michele Zinzi, Marko Jacimovic, Marjana Šijanec-Zavrl, Ove Mørck, Benedetta Mattoni, Kim Bjarne Wittchen, Kirsten Engelund Thomsen, Micha Illner, Wittchen, K. B., Thomsen, K. E., Morck, O., Erhorn-Kluttig, H., Erhorn, H., Illner, M., Gutierrez, M. S. M., Zinzi, M., Mattoni, B., Fasano, G., Sijanec-Zavrl, M., and Jacimovic, M.

Subjects

zero energy buildings, Mathematical optimization, Zero-energy building, 020209 energy, 05 social sciences, Solution set, 02 engineering and technology, 7. Clean energy, air quality, Cost reduction, cost benefit analysis, cost reduction, 0502 economics and business, 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, 050207 economics, Mathematics

Abstract

Nearly zero energy buildings (NZEBs) are required as the minimum standard for all new buildings in Europe by January 2021. NZEBS should, according to the Energy Performance of Buildings Directive (EPBD) [1], be cost optimal, i.e. the cost of constructing and operating the building over its lifetime should be at its minimum. The EU Horizon2020 research project CoNZEBs, identify and assess technology solution sets that lead to cost reductions of new NZEBs in four EU member states. Focussing on buildings that comply with national NZEB requirements, designers can easily ignore alternative solutions that make the building cheaper while remaining within national requirements. This is not done intentionally, but primarily due to use of a traditional design thinking where optimisation is done on component level instead of a more holistic approach. Changing one building component may influence the cost and performance of other components. These alternative solutions take offset in a typical national multi-family building design and analyses the different lifetime costs in terms of costs for construction, and energy. Analyses of costs in different countries reveals different solutions sets being optimal. In CoNZEBs we compare different solution sets and investigate the possibility for “exporting” solution sets from one country to another.

155. [The effect of ethrane on the blood gases during spontaneous respiration (author's transl)].

Author

Erhorn H, Foitzik H, and Lawin P

Subjects

Acidosis, Respiratory chemically induced, Adult, Anesthesia, Inhalation, Arteries physiology, Atropine administration & dosage, Blood Gas Analysis, Enflurane adverse effects, Female, Humans, Hydrogen-Ion Concentration, Male, Partial Pressure, Preanesthetic Medication, Pulmonary Ventilation drug effects, Carbon Dioxide blood, Enflurane pharmacology, Methyl Ethers pharmacology, Respiration drug effects

Published

1974