We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
LIFE CYCLE ANALYSIS OF TISSUE PAPER MANUFACTURING FROM VIRGIN PULP OR RECYCLED WASTE PAPER.
- Authors
Masternak-Janus, Aneta; Rybaczewska-Błażejowska, Magdalena
- Abstract
The aim of this work is to compare the environmental impacts of two production processes of tissue paper using virgin pulp (virgin fiber) or waste paper pulp (recycled fiber). This comparison is based on the materials and energy used as well as emissions and waste resulting from the production of tissue paper. Life cycle assessment (LCA), ReCiPe method, was chosen as the analysis tool. The results of the research proved that electricity has the most considerable participation in the overall environmental impacts in both production processes, followed by either virgin pulp or heat. Consequently, these two production processes are the greatest contributors to the following midpoint environmental impact categories: human toxicity, climate change, human health and ecosystems, and fossil depletion. The analysis based on endpoint impact categories proved that the production process based on waste paper is more environmentally friendly than the one based on virgin pulp in all impact categories: human health, ecosystems, resources. This is largely because of its lower material and energy requirements in the entire life cycle. Due to the fact that the tissue paper is the final use of fiber, using recycled waste paper is strongly recommended. The obtained research results are a valuable source of management information for the decision makers at both company and national levels required to improve the environmental performance of tissue paper production.
- Subjects
TISSUE paper manufacturing; MANUFACTURING processes &; the environment; ENVIRONMENTAL impact analysis; RAW materials; EMISSIONS (Air pollution); PRODUCT life cycle assessment
- Publication
Management & Production Engineering Review (MPER), 2015, Vol 6, Issue 3, p47
- ISSN
2080-8208
- Publication type
Article
- DOI
10.1515/mper-2015-0025