Your search keyword '"volumetric addition"' showing total 3 results

1. New strategies towards nearly zero energy in existing buildings: the ABRACADABRA project

Author

Anastasia Fotopolulou, Elena Cattani, Giovanni Semprini, Annarita Ferrante, Semprini, Giovanni, Ferrante, Annarita, Cattani, Elena, and Fotopoulou, Anastasia

Subjects

020209 energy, Real estate, Context (language use), existing building, 02 engineering and technology, volumetric addition, 010501 environmental sciences, 01 natural sciences, 7. Clean energy, 12. Responsible consumption, 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, Economic impact analysis, Built environment, energy efficiency, 0105 earth and related environmental sciences, Rate of return, deep renovation, Environmental economics, Investment (macroeconomics), Energy (all), ICAR/10 Architettura tecnica, cost-effective solution, 13. Climate action, Facade, Business, Efficient energy use, existing buildings, volumetric additions, cost-effective solutions

Abstract

ABRACADABRA is an European Project funded by the Horizon 2020 Program, based on the assumption that substantial increase in the real estate value of the existing buildings can play a key role in the deep renovation. The project aims at demonstrating to the key stakeholders and financial investors the attractiveness of a new renovation strategy based on volumetric Abstract Add-ons and Renewable energy sources (AdoRES) intended as one (or a set of) Assistant Building unit(s) – like aside or facade additions, rooftop extensions or even an entire new building construction – that “adopt” the existing buildings (the Assisted District heating networks are commonly addressed in the literature as one of the most effective solutions for decreasing the Buildings) to achieve nearly zero energy. The creation of these AdoRES aims at reducing the initial investment allocated for the greenhouse gas emissions from the building sector. These systems require high investments which are returned through the heat deep renovation of the existing building creating an up-grading synergy between old and new. The ABRA strategy can thus result sales. Due to the changed climate conditions and building renovation policies, heat demand in the future could decrease, in the implementation of a punctual densification policy that aims at fostering the investments in deep renovation of the existing prolonging the investment return period. built environment, driving process innovation in the construction and the real estate sector. The main scope of this paper is to assess the feasibility of using the heat demand – outdoor temperature function for heat demand The paper, after outlining the main aspect of the project, focuses on a case study in Italian context, where different technological forecast. The district of Alvalade, located in Lisbon (Portugal), was used as a case study. The district is consisted of 665 solutions and related economic impact are analysed: from a deep renovation to AdoRES strategies and different scenarios of buildings that vary in both construction period and typology. Three weather scenarios (low, medium, high) and three district renovation. The preliminary feasibility study and cost assessment, show the benefit given by the presented strategy in renovation scenarios were developed (shallow, intermediate, deep). To estimate the error, obtained heat demand values were overcoming actual financial e technical barriers.

Published

2017

2. Methodology for improving and testing the quality of renovation actions: a case study application

Author

GASPARI, JACOPO, BOERI, ANDREA, LONGO, DANILA, Passer, A, Höfler, K, Maydl, P, Gaspari J., Boeri A., and Longo D.

Subjects

quality, RETROFITTING, volumetric addition, ENERGY SAVINGS

Abstract

The contribution presents a synthesis of some results obtained from an on-going national research program carried out at the University of Bologna, Department of Architecture, focusing on sustainable renovation processes and effective solutions for increasing the energy efficiency of the existing housing stock. The proposed methodological approach is based on a step by step retrofit strategy, tested by a simulation model, aiming to reduce the energy demand from the current significant present value to at least 15 kWh/m2y. This performance level was assumed as the target of the retrofit action that has been developed by assessing the effectiveness of the different technological solutions adopted. This methodology and simulation set are going to be used for a further development of the retrofitting solution that foresees the use of pre-fab wood panels.

Published

2013

3. Design strategies and addition models for energy retrofit

Author

BOERI, ANDREA, GASPARI, JACOPO, LONGO, DANILA, P. Zhang, H. Liu, J. Wo, H. Xie, Andrea Boeri, Jacopo Gaspari, and Danila Longo

Subjects

Technological implementation, ENERGY EFFICIENCY, renovation strategie, volumetric addition, RETROFITTING ENERGETICO

Abstract

Urban renewal and retrofit actions in the existing building stock are, especially in the housing sector, a necessary condition to meet the energy reduction demand and, at the same time, a great opportunity to develop sustainable and responsive strategies in order to face the economic, cultural and social changing most cities are running into. The transformation of the building envelope can become an opportunity to rethink the configuration of the building through architectural and technological additions. This paper presents the methodological outline of a study carried out on some energy upgrading of existing housing buildings concerning the use of architectural and technological additions and their effectiveness on the energy balance considering the new lifespan deriving from the interventions.

Published

2012