In a three-year Business Finland BioFlex project, VTT Technical Research Centre of Finland (VTT) and partners are exploring how suitable fuel oils made from biomass and waste plastics are for power plants and ship diesel engines. The aim is to determine the most ecologically and economically sustainable way to replace fossil fuels.
The increase in wind and solar power requires the load-following capacity to flexibly compensate for gaps in electricity production on windless and cloudy days. Power plants that use fuels will continue to be part of energy systems, but there are differences in their flexibility.
Conventional coal- or biomass-fired steam boilers are not capable of load changes that are as fast as those of natural gas-fired gas turbine power plants or the most flexible power plants of them all: internal-combustion engine power plants.
Internal-combustion engine (ICE) power plants use natural gas or heavy fuel oil (HFO) in diesel engines. In order for large diesel engines to be environmentally sustainable both on land and at sea, it is necessary to find bio- and waste-based alternatives to fossil fuels. These will be identified and evaluated in the BioFlex project coordinated by VTT.
Our goal is to find the most ecologically and economically sustainable way to replace fossil heavy fuel oil in ship and power plant diesel engines. We compare different methods of industrially producing fuel oils from, for example, waste plastics or biomass, such as harvest residues from forestry and agriculture. We are also conducting experiments to examine the suitability of the oils for applications, said Anja Oasmaa, Senior Principal Scientist at VTT.
Aiming for low-emission fuel oil that keeps and blends well
In addition to seeking a sustainable solution for the production of load-following capacity, the BioFlex project also aims to support the objective of the International Maritime Organization (IMO) to halve greenhouse gas (GHG) emissions from marine traffic by 2050.
In theory, bio- or waste-based fuel oil could be identical to fossil fuel oil in chemical composition. In practice, however, the objective is a similar oil that does not require significant modifications to diesel engines when used. It is also essential that the oil keeps well in storage, mixes with fossil oils and keeps sulphur, nitrogen and particulate emissions low.
The use of bio-oils is still limited, mainly for cost and availability reasons, and I expect the project to address these factors. It is very important that the subject is researched together to identify all potential challenges throughout the manufacturing, distribution and consumption chain. Every effort must be made to reduce greenhouse gas (GHG) emissions, and bio-oils will play a significant role in this battle going forward, said Ilkka Rytkölä, CTO Auramarine, a supplier of fuel injection systems.
The BioFlex project has a budget of EUR 1.6 million and is co-financed by, along with Business Finland and VTT, the participating companies: fuel oil producers, users and equipment manufacturers. The companies involved include Auramarine, Fortum, Neste, Pohjanmaan Hyötyjätekuljetus, Polartek, St1, Valmet and Wärtsilä.
VTT brings to the project its expertise in sustainable development, analytics, diesel engine emission measurement, and thermal conversion methods used in the liquefaction of biomass and waste plastics. These include pyrolysis and hydrothermal liquefaction (HTL), among others. The aim is also to utilise the expert networks of the International Energy Agency (IEA).