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Eficiencia energética in situ: nueva metodología de planificación urbana y construcción de barrios energéticamente eficientes teniendo en cuenta la mitigación del cambio climático y la sostenibilidad global

Resumen

Tipo:
Oferta Tecnológica
Referencia:
TODE20170403002
Publicado:
19/04/2017
Caducidad:
19/04/2018
Resumen:
Un grupo de empresas alemanas de ingeniería especializado en geotecnia y planificación urbana ha desarrollado una nueva herramienta de planificación y construcción de barrios energéticamente eficientes. Esta metodología ayuda a optimizar la planificación urbana en los barrios de forma eficiente reduciendo costes, riesgos y tiempo de inversión para mitigar el cambio climático. El grupo de empresas busca ayuntamientos, asociaciones de viviendas, proveedores de energía y oficinas técnicas de arquitectura e ingeniería con el fin de establecer acuerdos de cooperación técnica para continuar con el desarrollo y adaptar una metodología regional para uso transregional e internacional.

Details

Tittle:
Energy efficiency on-site: a new methodology for urban planning and realization of energy-efficient neighborhoods under the aspects of climate change mitigation and global sustainability
Summary:
A group of German engineering companies specialized in geo-techniques and land use planning, developed a new tool for planning and realization of energy efficient neighborhoods. The methodology helps efficiently to optimize urban planning and redevelopment in the neighborhood by minimizing costs, risks and time for investments to mitigate climate change. Partners sought: Municipalities, housing associations, energy suppliers, architects/engineering offices for technical cooperation agreements.
Description:
The global challenges of climate change require a climate-friendly energy production as well as a sustainable energy consumption. In order to achieve a noticeable reduction in greenhouse gases, it is necessary to increase the share of renewable energy use and energy efficiency in all sectors. The necessary results can only be achieved by the integration of many households and businesses in cities and communities - the so-called neighborhood. Existing planning solutions are either to global and based on the governance of entire cities, or they are sectorally limited for the neighborhood, e.g. only focused on energy or urban planning.
To close this gap a group of small German companies has developed a new tool that enables urban planning of the optimal mix of energy supply in connection with a spatially and functionally sustainable development of the neighborhood. All necessary indicators are brought together and linked to a GIS (Geographic Information System)-based model. 23 defined sets of indicators, which include 142 individual parameters have been determined for the following six key areas:
- Energy and building technology
- Architecture
- Urban planning
- Ecology
- Mobility
- Resources
The selected indictors are essential for a sustainable neighborhood development and allow for an easy and valid evaluation of development scenarios. The evaluation of sustainability is based on the dimensions of ecology, economy and social issues. All spatially stored evaluation criteria and indicators can be combined and clearly visualized with the assistance of the especially developed "sun": The Sun of Sustainability (see image).

By using the tool, the aim of an energetic neighborhood optimization with a high self-sufficiency through renewable energies is achieved. Measures for improvement of energy efficiency and climate protection can be implemented in such a way, that there are no deterioration of all other indicators within the neighborhood. The presentation of all aspects of the integrated neighborhood concept is provided in the neighborhood atlas. The necessary steps for the energetic reconstruction of the neighborhood are shown in a map of measures. In addition, the customer receives recommendations for impulse and key projects. These projects initiate urban development in the respective neighborhood or may help to eliminate immediate weaknesses.

Joint activities with new partners are envisaged under technical cooperation agreements: a regional methodology should be developed further and adapted for trans-regional and international use. The application of the new tool provides municipalities and other users with the benefit of actually responding to the complex challenges of urban redevelopment in their region. It addresses the "neighborhood" as being the right place for future-oriented climate protection projects - from strategic planning to implementation and evaluation.
Advantages and Innovations:
The significant innovation of this interdisciplinary planning tool results from the degree of severity of analysis and planning, and from the combination of building planning and urban planning in the field of energy-efficient urban redevelopment.
The new method of sustainability assessment can also be used for certification of neighborhoods.
Further advantages:
- enabling the development of sustainable integrated neighborhood concepts under the consideration of the property-level
- the novel systemic practical approach results in a neighborhood atlas
- enables the allocation of detailed and concrete energy consumption and requirements
- minimizing costs, risks and time for investments significantly
- producing transparency with regard to environmentally and energy-relevant facts
Stage of Development:
Prototype available for demonstration
IPs:
Other
CommeR Statunts Regarding IPR Status:
no patent/trademark foreseen

Partner sought

Type and Role of Partner Sought:
Seeking partners from the following fields:
- municipalities
- housing associations
- municipal utilities
- energy suppliers
- citizen cooperatives
- architects and engineering offices

Role:
Above partners should deal with or have strong interest in sustainable urban redevelopment measures in their regions and neighborhood.
Partners are sought for technical cooperation agreements including strategic planning tasks, implementation and evaluation of the tool in other regions/neighborhoods.
Technical support and engineering service will be provided during all stages and processes.

Client

Type and Size of Client:
Industry SME 11-49
Already Engaged in Trans-National Cooperation:
Si
Languages Spoken:
English
German

Keywords

Technology Keywords:
10002006 Ecología
01004006 Environment Management Systems
01004007 GIS Geographical Information Systems
10002004 Reducción del cambio climático
10002007 Tecnología / ingeniería medioambiental