Niko Heeren

Latest

• Factors influencing the life-cycle GHG emissions of Brazilian office buildings
• Global Scenarios of Resource and Emissions Savings from Systemic Material Efficiency in Buildings and Cars
• Material efficiency for climate change mitigation
• A comprehensive set of global scenarios of housing, mobility, and material efficiency for material cycles and energy systems modelling
• UN report RECC Webinar
• Investigations on the Sustainable Resource Use of Swiss Timber
• Material efficiency and its contribution to climate change mitigation in Germany: A deep decarbonization scenario analysis until 2060
• Optimisation of energy-efficient greenhouses based on an integrated energy demand-yield production model
• A combined GIS-archetype approach to model residential space heating energy: A case study for the Netherlands including validation
• Material efficiency and climate change mitigation of passenger vehicles
• The Systems Science of Industrial Ecology
• Linking service provision to material cycles: A new framework for studying the resource efficiency–climate change (RECC) nexus
• Technologies and policies to decarbonize global industry: Review and assessment of mitigation drivers through 2070
• Sustainability Assessment of the Housing System: Exploring the Interplay between the Material and Social Systems
• A framework for sustainable and circular system design: development and application on thermal insulation materials
• End of 2019 IEDC Update
• Resource Efficiency and Climate Change: Material Efficiency Strategies for a Low-Carbon Future
• Bridging the gap: enhancing material efficiency in residential buildings and cars
• ODYM – An Open Software Framework for Studying Dynamic Material Systems. Principles, Implementation, and Data Structures
• Impact of CH2018 Climate Change Scenarios for Switzerland on today's Swiss building stock
• Monte Carlo approach to integrated chemical, physical, and life cycle impact assessments of cement related materials
• A general data model for socioeconomic metabolism and its implementation in an industrial ecology data commons prototype
• Upcoming IRP G7 report `GHG mitigation through material efficiency in residential buildings and light-duty vehicles'
• Material efficiency strategies to reducing greenhouse gas emissions associated with buildings, vehicles, and electronics – A review
• A Database Seed for a Community-driven Material Intensity Research Platform
• A comparative study on the environmental impact of greenhouses: a probabilistic approach
• A geospatial and prospective building stock model for Switzerland
• Building a research community for the built environment’s material stocks
• Building material use and associated environmental impacts in China 2000--2015
• Circular System Design -- Fallbeispiel Isolationsmaterialien Schweiz
• Circular System Design: A case study on insulation material in Switzerland
• Development pathways of building stocks
• Future Pathways for scenario modelling in Industrial Ecology
• Material efficiency and its contribution to climate change mitigation in Germany -- A scenario analysis until 2050
• Progress on Open Science in Industrial Ecology
• Resource Efficiency for Climate Change Mitigation in Housing Buildings and Light-Duty Vehicles
• Retrofit as a carbon sink: The carbon storage potentials of the EU housing stock
• Special Session on Urban stocks and Urban mining
• The community-driven material intensity platform for IE open science
• The future in and of criticality assessments
• Building material use and associated environmental impacts in China 2000-2015
• Resource Efficiency and Climate Change
• Quantifying Environmental Impacts of Socio-Economic Systems
• The Industrial Ecology Open Science Project
• Circular System Design – A Case Study on Insulation Material in Switzerland
• Environmental Impacts of Buildings – Energy, Material, and Dynamics
• Circular System Design – A Case Study on Insulation Material in Switzerland
• Introducing ODYM -- An Open Dynamic Material Systems Model
• Resource Efficiency & Climate Change -- A Comprehensive Modelling Framework for the Socio-Economic System
• Deriving material inventories using big data methods
• Tracking Construction Material over Space and Time: Prospective and Geo-referenced Modeling of Building Stocks and Construction Material Flows
• Tracking construction material over space & time
• A novel integrated framework to evaluate greenhouse energy demand and crop yield production
• Assessing environmental impacts of individual households: A large-scale bottom-up LCA-model for Switzerland
• Assessing environmental impacts of individual households: A large-scale bottom-up LCA-model for Switzerland
• Building Inventory and Refurbishment Scenario Database Development for Switzerland
• Industrial Ecology Data Commons (IEDC) Database
• Is a net life cycle balance for energy and materials achievable for a zero emission single-family building in Norway?
• Nullius in Verba1: Advancing Data Transparency in Industrial Ecology
• Nullius in verba -- A guideline proposal for data accessibility and transparency in industrial ecology research
• Comparative emission analysis of low-energy and zero-emission buildings
• A look on the bright side of material stocks: formation of a global material stock database of the built environment using nighttime satellite imagery
• A Virtual Platform to Evaluate Policy Scenarios Targeting Environmental Impacts from Household Consumption
• BEEF: Building stock Energy EFficiency model for Switzerland
• Big data GIS analysis for novel approaches in building stock modelling
• Criticality methodology for resources: how to apply to construction in the future?
• Data transparency in Industrial Ecology
• GIS-based Decision Support System for Building Retrofit
• Mitigation potentials for environmental impacts of construction material flows
• Modelling environmental impacts of buildings – energy, material, and dynamics
• Prospective and regional modelling of construction material flows
• Special session on the built environment's stocks and flows
• Life cycle assessment of dynamic building integrated photovoltaics
• Tools for shaping the future of energy and building systems
• Bottom-up model of energy & material flows in the Swiss building stock
• Bottom-up model of energy & material flows in the Swiss building stock
• Welches sind die ökologischsten Holzverwendungen?
• A bottom-up model for material-energy coupled environmental assessment of the Swiss building stock
• A tool for LCA and LCC of heat supply systems
• Environmental Impact of Buildings---What Matters?
• LCA of innovative wood products and wood energy systems
• The role of wood for the Swiss building stock
• Building Energy Efficiency for Massive market Uptake BEEM-UP Energetic Refurbishment Replication Strategy for Eastern European Countries
• Energetic and comfort benefits of composite buildings : Learning from vernacular techniques
• Influence of construction material choice and design parameters on greenhouse gas emissions of buildings
• Konzept Energieversorgung 2050
• Modeling housing energy demand and optimizing energy supply
• Optimizing the Life Cycle of Wood
• Pathways towards an Energetic Refurbishment Replication Strategy for Eastern European Countries - Findings from the EU project BEEM-UP
• The environmental significance of construction: the case of wood buildings
• Housing and mobility demands of individual households and their life cycle assessment.
• A component based bottom-up building stock model for comprehensive environmental impact assessment and target control
• Ecological use of wood resources in Switzerland: an overview from the Swiss National Research Program (NRP) 66
• Combining MFA and LCA to identify environmental strategies for a sustainable management of wood resources in Switzerland
• Component-based building stock model for testing the targets of the Swiss 2000 Watt society
• DIAL+Suite: A new suite of tools to optimize the global energy performance of room design
• Energiekonzept 2050 für die Stadt Zürich - Auf dem Weg zur 2000 Watt tauglichen Wärme-Versorgung mit einem räumlich differenzierten Gebäudeparkmodell
• Innovation for sustainability: toward a sustainable urban future in industrialized cities
• Towards a 2000 Watt society – assessing building-specific saving potentials of the Swiss residential building stock
• Ecological potentials of load management in buildings
• 2000-Watt-Gesellschafts-taugliches Energiekonzept für die Stadt Zürich
• Towards a 2000 Watt society – assessing building - specific saving potentials of the Swiss residential building stock
• 4500 W zu viel
• Building stock modeling -– a systematic approach to govern cities in a sustainable way
• Gebäudeparkmodell Vorstudie zur Erreichbarkeit der 2000-Watt-Ziele für Wohn-, Büro- und Schulgebäude in der Stadt Zürich Anhang zum Schlussbericht: Graue Energie und Umweltbelastungspunkte
• Gebäudeparkmodell Zürich – 7-Meilenschritte – Wirkungsanalyse anhand des Gebäudeparkmodells Stadt Zürich
• Gebäudeparkmodell Zürich – Büro-, Schul- und Wohngebäude – Vorstudie zur Erreichbarkeit der Ziele der 2000-Watt-Gesellschaft für den Gebäudepark der Stadt Zürich
• Lebensdauerkosten von Schwellenmaterialien unter Einbezug ökologischer Aspekte
• Überprüfung der Ziele der 2000-Watt-Gesellschaft mittels des Gebäudeparkmodells (GPM) Schweiz und Stadt Zürich
• Gebäudeparkmodell Schweiz – SIA Effizienzpfad Energie, Dienstleistungs- und Wohngebäude
• Lebensdauerkosten von Oberbautypen mit verschiednen Schwellenmaterialien unter Einbezug ökologischer Aspekte