Research projects

Save favourite Print 24 Mar March 2016

Most of the research projects at FSCN have industrial partners and many of them have external funding together with faculty funding. A lot of them are also a part of our KK Research Environment at Mid Sweden University.

Research projects at FSCN

AHYP - Advanced HYP for paperboard

One way to increase the export value for the Swedish forest industry of wood based paperboard by means of sustainable development, is to use more of fibre materials produced at high yield (>90%) as in chemi-mechanical pulping (CTMP) processes.

Bio2Fuels 2030

Read more about our research project Bio2Fuels 2030 in Swedish below. The research project is funded by EU regional development fund. 

Cello

The research group in Surface and Colloid Engineering has received funding for a new project that focus on producing biocomposite materials from cellulose. The research is funded from Vetenskapsrådet.

Compac

The project "Plasticized cellulose composites for packaging applications" (Compac) has the goal to manufacture plasticized cellulosic materials in pilot scale and identify possible applications of it.

e2mp - Energy Efficient Mechanical Pulping

E2Mpi is a mechanical pulping initiative by Holmen, Norske Skog, SCA, Stora Enso and the Swedish Energy Agency regarding reduction of energy efficiency. Administrated by FSCN, Mid Sweden University.

Enccp

In this research Project we will study eco-friendly engineering of nanocrystalline celloluse for green packaging.

Fibre Network Design: Applications to Hygiene Products

In this project we consider fibre network as a micro-mechanical and microfluidics system, and investigate the non-uniform deformation of fibre network and the transport of complex fluids (body fluids) within the network. Such a problem is currently the core issues related to the new product development of hygiene products.

FORIC - Forest as a Resource Industrial Research College

FORIC (Forest as a resource industrial research college) is our industrial research school. Program manager is professor Per Engstrand. FORIC is financed by the Knowledge Foundation and a part of our research environment Transformative Technologies at Mid Sweden University.

KEPS

At Mid Sweden University in Sundsvall there are currently several research projects on fibre and energy. We see great potential for the future in the production and process know-how of the forest industry. Coating is a promising method to develop efficient systems for energy storage in paper-based supercapacitors.

KM2

We have many projects in the area for Advanced Paper Materials. We have given them the name KM2 together. KM2 means squarekilometres of areas that can be used for printing functionalities. Below you can se our projects in the area right now.

Light-weight Structural Composites from Fibre-based Materials

The project Light-weight Structural Composites from Fibre-based Materials - Reliability-based Design, is a project within the KK Research Enviroment at Mid Sweden University.

Lignofuel

Our research project Lignofuel is a pre study funded by EU regional development fund. Read more about the project in Swedish below. 

Litium batteries

The Swedish Energy Agency is funding a five-year research project to develop cost efficient lithium ion batteries for vehicle applications. The research project is led by the Mid SwedenUniversity in collaboration with the Royal Institute of Technology (KTH). Two regional companies, Vesta Si Europe in Ljungaverk and Superior Graphite in Sundsvall are also participating in the project.

Miljöhorisont 2020

We present our research project Miljöhorisont in Swedish below.

ModDD

The aim of the project is to provide knowledge on how double disk refining can be more energy efficient. The research will be developed through optimization and modeling of the refiner, and by finding new technical solutions and process strategies both in test laboratory and factory scale together with the company Valmet.

Modulit

More efficient ways to build batteries and other devices to save energy is the goal of the new research project MODULIT. Inexpensive and efficient energy storage is a prerequisite for the development of power-driven vehicles and for an efficient use of renewable electrical energy like wind power and solar energy.

Morphology studies on future biocomposite

The paper industry is facing major challenges due a declining market. Meanwhile, the electricity industry has other problems such as price and raw materials. Therefore, it would be a "win-win" situation for both industries utilizing fiber-based materials to create new advanced products with electrical functionality, such as supercapacitors for energy storage and solar cells.

NovoCell

Formas is financing a research project called NovoCell - Novel use of native cellulose in dispersions and functional biocomposites. The research is developed in the research group Surface and Colloid Engineering.

Oxcis

This is an AVANS project in our research environment Transformative Technologies The goal is to develop an education program on advanced level and to start collaboration with research centres and academia disciplines that are outside of Transformative Technologies today. They can strengthen the Mid Sweden University´s efforts to fulfil the TIE Vision.

Paper Solar Cells

This project is a part of our KK Research Environment at Mid Sweden University. Low cost solar cells are needed. Manufacturing processes of today are mainly based on costly vacuum methods making the solar electricity to the most expensive one. Roll-to-roll processing is potentially more efficient as manufacturing method for solar cells. 

Skin Mechanics

This project is aiming at developing mechanistic understanding of how skin cells physically interact with each other and with environment, and how the skin breakdown proceeds under special conditions.

Smart street lights

This research project is a prestudy funded by EU regional development Fund. Read more about the project in Swedish below.

Transform

Transform is a research project about a new process to produce delignified pulp based on mechanical pulp as raw material.

Utveckling av industriellt gångbar tillverkningsmetod för tungmetallsbindande tensider

Our pre study "Utveckling av industriellt gångbar tillverkningsmetod för tungmetallsbindande tensider" is financed by EU regional development Fund. Read more about the research project in Swedish below. 

Head of the Research groups

Bio energy

Wennan Zhang

Complex Materials

Tetsu Uesaka

Digital Printing Center, DPC

Mattias Andersson

Eco Chemistry

Erik Hedenström

High Yield Pulping Technology

Per Engstrand

Materials Physics

Håkan Olin

Organic Chemistry

Armando Cordova

Surface and Colloid Engineering

Magnus Norgren

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