Woodchips are used primarily as a raw material for technical wood processing. In industry, processing of bark chips is often separated after peeling the logs due to different chemical properties.
Wood pulp Only the heartwood and sapwood are useful for making pulp. Bark contains relatively few useful fibres and is removed and used as fuel to provide steam for use in the
pulp mill. Most pulping processes require that the wood be chipped and screened to provide uniform sized chips.
Mulch Woodchips are also used as landscaping and garden
mulch, for
water conservation, weed control, and reducing and preventing
soil erosion. Woodchips when used as a
mulch are at least three inches thick. It has a mixed reputation in gardening. It has been promoted for use in
habitat restoration projects. As the
ramial chipped wood decomposes it improves the soil structure, permeability, bioactivity, and nutrient availability of the soil.
Playground surfacing Woodchips do not meet
American Society for Testing and Materials standards for use as playground surfacing material, and as of 2011 are illegal to use as
playground surfacing in the US, not being ADA-approved according to US department of Justice guidelines.
Barbecuing Woodchips can also be used to infuse flavor and enhance the smoky taste to barbecued meats and vegetables. Several different species of wood can be used depending on the type of flavor wanted. For a mild, sweet fruity flavor, apple wood can be used while hickory gives a smoky, bacon-like flavor. Other different types of wood used are cherry, mesquite and pecan.
Denitrifying woodchip bioreactor Woodchips can be loaded into a 'denitrifying woodchip
bioreactor' which has been used for several decades as an emerging biotechnology to treat agricultural wastewater by
removing nitrates. It is a subsurface system where
denitrification by micro-organisms utilizing a carbon source (as electron donor) reduces the
nitrate into a harmless
nitrogen gas. The interest in such a technique has grown in recent years and has expanded into the mining industry. A 2013 experiment showed that after 70 days of startup, a woodchip pile loaded with liquid pig manure at 5 L/m2/day removed an average of 90% of nitrate after one month. However, if the environmental conditions do not support complete denitrification, undesirable
greenhouse gas such as
nitrous oxide gas and
methane could be produced.
Fuel Woodchips have been traditionally used as solid fuel for
space heating or in energy plants to generate
electric power from
renewable energy. The main source of forest chips in Europe and in most of the countries have been logging residues. It is expected that the shares of stumps and roundwood will increase in the future. in the EU, the estimates for biomass potential for energy, available under current 2018 conditions including sustainable use of the forest as well as providing wood to the traditional forest sectors, are: 277 million m3, for above ground biomass and 585 million m3 for total biomass. The newer fuel systems for heating use either woodchips or
wood pellets. The advantage of woodchips is cost, the advantage of wood pellets is the controlled fuel value. The use of woodchips in automated heating systems, is based on a robust technology. One common chip category is the GF60 which is commonly used in smaller plants, including small industries, villas, and apartment buildings. "GF60" is known as "Fine, dry, small chips". The requirements for GF60 are that the moisture is between 10 and 30% and the fractions of the woodchips are distributed as follows: 0–3.5mm: <8%, 3.5–30mm: <7%, 30–60 mm: 80–100%, 60–100 mm: <3%, 100–120 mm: <2%. Like coal, wood combustion is a known source of
mercury emissions, particularly in northern climates during winter. The mercury is both gaseous as elemental mercury (especially when wood pellets are burned) or mercury oxide, and solid PM2.5 particulate matter when untreated wood is used. When wood burning is used for space heating, indoor emissions of
1,3-butadiene,
benzene,
formaldehyde and
acetaldehyde, which are suspected or known carcinogenic compounds, are elevated. The cancer risk from these after exposure to wood smoke is estimated to be low in developed countries. Certain techniques for burning woodchips result in the production of
biochar – effectively charcoal – which can be either utilised as charcoal, or returned to the soil, since
wood ash can be used as a mineral-rich plant
fertilizer. The latter method can result in an effectively carbon-negative system, as well as acting as a very effective soil conditioner, enhancing water and nutrient retention in poor soils.
Automated handling of solid fuel Unlike the smooth, uniform shape of manufactured
wood pellets, woodchip sizes vary and are often mixed with twigs and
sawdust. This mixture has a higher probability of jamming in small feed mechanisms. Thus, sooner or later, one or more jams is likely to occur. This reduces the reliability of the system, as well as increasing maintenance costs. Despite what some pellet stove manufacturers may say, researchers who are experienced with woodchips, say they are not compatible with the 2 inch (5 cm) auger used in pellet stoves.
Comparison to other fuels Woodchips are similar to
wood pellets, in that the movement and handling is more amenable to automation than cord wood, particularly for smaller systems. Woodchips are less expensive to produce than wood pellets, which must be processed in specialized facilities. While avoiding the costs associated with refinement, the lower
density and higher moisture content of woodchips reduces their
calorific value, substantially increasing the feedstock needed to generate an equivalent amount of heat. Greater physical volume requirements also increase the expense and emissions impact of trucking, storing and/or shipping the wood. Woodchips are less expensive than
cord wood, because the harvesting is faster and more highly automated. Woodchips are of greater supply, partly because all parts of a tree can be chipped, whereas small limbs and branches can require substantial labor to convert to cord wood. Cord wood generally needs to be "seasoned" or "dry" before it can be burned cleanly and efficiently. On the other hand, woodchip systems are typically designed to cleanly and efficiently burn "green chips" with very high moisture content of 43–47% (wet basis). (see
gasification and
woodgas) == Environmental aspects ==