A5053884258- Forest Management and Policy
- Environmental Impact and Sustainability
- Forest Biomass Utilization and Management
- Hygrothermal properties of building materials
- Forest Ecology and Biodiversity Studies
- Sustainable Building Design and Assessment
- Work-Family Balance Challenges
- Innovations in Concrete and Construction Materials
- Renewable energy and sustainable power systems
Swedish University of Agricultural Sciences
2021-2024
Hochschule Bielefeld
2023
University of Hohenheim
2021
Biobase (Germany)
2021
Abstract Insulation materials decrease the final energy consumption of buildings. In Germany, fossil and mineral insulations dominate market despite numerous life cycle assessments (LCAs) showing that bio‐based can offer environmental benefits. Evaluating results such LCAs is, however, complex due to a lack comparability or costs considered. The objective this study is comparing under equal conditions identify most environmentally friendly cost‐efficient material. For purpose, comparative...
Multi-family housing construction (MFHC) with wood instead of concrete as frame material results in lower greenhouse gas emissions. Hence, substituting for MFHC Sweden until 2030, and onwards to 2070, could be a promising climate change mitigation option. But what extent, how would it impact Sweden's forests? Here we assess biodiversity implications - terms the area old-growth forest completely wood-based future Sweden. The required is assumed exclusively sourced additional fellings Swedish...
Abstract Climate change mitigation trade-offs between increasing harvests to exploit substitution effects versus accumulating forest carbon sequestration complicate recommendations for climate beneficial management. Here, a time dynamic assessment ascertains potential from different rotation management alternatives across three Swedish regions integrating the decision support system Heureka RegWise with wood product model using life cycle data. The objective is increase understanding on of...
Abstract Harvested wood products (HWPs) store a significant amount of carbon while long-lived and wooden buildings can be among the most effective means for storage. Wood products’ lifetime extension appropriate waste management, recycling, reuse further contribute to achievement climate goals. In our study we projected under 10 different scenarios storage, dioxide methane emissions Hungarian HWP pool up 2050 in order find combination industry-related measures with highest change mitigation...
Abstract Climate change mitigation by increased paper recycling can alleviate the two-sided pressure on Swedish forest sector: supplying growing demands for wood-based products and increasing carbon sink. This study assesses two scenarios making use of a reduced demand primary pulp resulting from an rate in Sweden, present 72% to 78%. A Conservation scenario uses saved reduce pulplog harvests so as increase sink concomitant with constant overall wood product supply. In contrast, Substitution...
Abstract The forest sector can play a pivotal role in mitigating climate warming by decreasing emissions to the atmosphere and increasing carbon removals. In an expanding bioeconomy, pulp paper industry provides opportunities for various low‐carbon wood products with promising substitution effects. However, assessing effects of product systems is complex requires holistic approach. objective this study was advance time dynamic impact assessment bioeconomically from system perspective. For...
As a result of the COVID-19 pandemic, many companies and organisations have introduced or expanded remote work options, thus creating new opportunities for employees to organise their day-to-day independently. However, several studies suggest that women tend suffer more from double burden, as working home often leads revival traditional gender roles. Special strategies instruments are needed optimise work-life balance when home. The aim this study was identify gender-specific stress success...