Fulvio Di Fulvio Assistant Researcher Assistant Researcher Department of Forest Biomaterials and Technology Swedish University of Agricultural Sciences.

Slides:

Advertisements

Similar presentations

Woodfuel supply chains in Austria. Woodfuel supply chains 1. Developments in Styria 2. Woodfuel supply chains 3. Biomass Trade Centres.

Advertisements

Biomass. Biomass Opportunities Significant growth opportunity Industrial wood waste Industrial mill residues Forest residues.

Supply of wood energy from the forest related to climate and sustainability Hillevi Eriksson, Swedish Forest Agency.

Wood energy and raw material supply Forest owners’ views Ivar Korsbakken, special adviser.

LONG-TERM PROGNOSIS OF ESTONIAN WOOD FUEL SUPPLY Rauno Reinberg Vilnius, Lithuania.

© FH-Prof. Dr. Bernhard Zimmer – 1st. EnerGEO Summer School,Salzburg, Renewable Energy Resources: Regional Potential and Ecological Impact Assessment.

“Hat Trick” Project Black Forest Colorado Springs, Colorado October to December, 2013.

FORESTS – IMPORTANT ENERGY SOURCE. Forests in the EU Apart from their importance for ecology and environment conservation forests are one of the Europe's.

VT Department of Forests, Parks & Recreation Wood Energy in Vermont January 2005 VT Department of Forests, Parks & Recreation.

Ground-Based Primary Transport TOPICS: Conventional ground skidding equipment Mechanical felling, tree processing & forwarding equipment & systems Management.

PRODUCTION OF WOOD CHIPS

Christer Segerstéen LRF Forest owners’ association Sweden’s Green Gold.

Biomass and the Natural Heritage SNH Sharing Good Practice Event 2nd November 2006, Battleby Fiona McPhie Northern WoodHeat Project Manager Highland Birchwoods.

COURSE CODE: FWM 411 COURSE TITLE: Harvesting,processing and wood utilization NUMBER OF UNITS: 3 Units COURSE DURATION: Two hours per week COURSE.

FOREST FUEL - RENEWABLE ENERGY. Renewable energy Today, renewable energy is an important part of the Swedish energy budget. With its share in the energy.

Stump Harvesting for Biofuel FEG Symposium 2009 Jack Barnes Biomass Manager Scottish Woodlands Ltd. University of Cumbria Newton Rigg 9 th September 2009.

Biomass Harvesting and Transportation Bob Rummer US Forest Service Forest Operations Research Auburn, Alabama.

O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 1 Integrated Biomass Supply Analysis & Logistics IBSAL Shahab Sokhansanj and Anthony Turhollow.

BIOMASS Leann Baer Brooke Edwards Nisarg Joshi Josh Olzinski.

Quantifying the availability and volume of the forest resides resource B.Hock, P.Nielsen, S.Grigolato, J.Firth, B.Moeller, T.Evanson Scion, Rotorua, New.

Prescribed Burning near SMEAR II spring / early summer 2009  Prescribed burning  Burning plan  Pre-measurements  Measurements during the burning 

Current Integrated Use of Biomass from Forest Treatment Plummer Forest Products.

Federal Department of the Environment, Transport, Energy and Communications DETEC Federal Office for the Environment FOEN Potential Wood Supply in Swiss.

Forest Operational Planning and Control System (FOPC) Evgeny Kuznetsov, St. Petersburg State Forest Technical Academy.

Science 8 th grade Environmental Science Choice1Choice 2Choice 3Choice

Magnus Matisons Brussels 4 June Setting the scene- The forest-based sector contribution to growth of the bio based economy.

UK Renewable Energy Policy with particular reference to bioenergy

Wood for Energy Experience of Coillte to date Presentation to the Oireachtas Joint Committee on Marine, Communications and Natural Resources George McCarthy.

Harvest residue utilization in small- and large-scale bioenergy Systems: 1 Julian Cleary, Post-Doctoral Fellow Faculty of Forestry University of Toronto.

FINNISH FOREST RESEARCH INSTITUTE 1 5EURES Training June 2006, Joensuu, Finland Estimation of Forest Fuel Potential Lauri Sikanen & Timo Tahvanainen.

Sunlight CO 2 Water Fibres Oxygen Sweden’s Green Gold.

Swedish University of Agricultural Sciences Department of Forest Products Run-off quality from sprinkled debarked logs and logs with bark from Picea abies.

Forest Biomass Sustainability: Policy Themes & Research Needs Alan A. Lucier, Ph.D. Senior Vice President, NCASI FIA User Group Meeting & Biomass / Bioenergy.

Harvesting Introduction, Components, Work Elements, Planning January 10, 2002 James B. Hart.

The research leading to these results receives funding from the European Union’s Research and Innovation Programme Horizon 2020 under Grant Agreement N.

Potential for Biomass Energy Development in South Carolina Tim Adams Resource Development Director South Carolina Forestry Commission.

Objective: Have a working knowledge of the relationship between the vegetative cover in a watershed and water yield and water quality.

Innovations in Log Transportation John Sessions Oregon State University.

Wood By: Logan Price. What is wood Wood is a hard fibrous lignified under the bark of trees. It has been used for centuries for both fuel and construction.

Geographical analyses of wood chip potentials, costs and supply for sustainable energy production in Denmark Dr. Bernd Moeller, Aalborg University Denmark.

1 Harvesting Willow Rings Around Prairie Marshes Philippe Savoie, Research Scientist, AAFC Frédéric Lavoie, Graduate Student Luc D’Amours, Graduate Student.

Determining the Feasibility of the Recovery of Woody Biomass Bob Rummer, US Forest Service Mark Engle, Four Corners Consulting.

What is a renewable energy? -Resource that can be replenished rapidly through natural processes as long as it is not used up faster than it is replaced.

Diagram from the publication

Forest Knowledge Know-how Well-being State of Finland’s Forests 2012 Based on the Criteria and Indicators of Sustainable Forest Management.

Wood Fuel Supply Chain Robin Almond RTS. Who are RTS? Timber Harvesting & Marketing Quarter of a million tonnes of timber per year Woodland Management.

METSÄNTUTKIMUSLAITOS SKOGSFORSKNINGSINSTITUTET FINNISH FOREST RESEARCH INSTITUTE 27th Session Joint FAO/UNECE Working Party on Forest Economics.

Timber Harvest Elements of Forestry Kenneth Williams Fisheries Extension Specialist Langston University Aquaculture Extension Program.

Economics of Biomass Harvest Dean Current and Dalia Abbas Woody Biomass Harvesting Workshop and Equipment Demonstration Grand Marais, MN – August 7, 2006.

Fitness for Purpose- sustainable forestry timber Life cycle of a managed radiata pine.

SAF 3/3/09 1 Potential Biomass Demand Impact on Forest Markets and Resources Bob Abt NC State University

Wood logistics in Sweden Forest Road planning, development in transport and wood flow

Sustainable Aviation Biofuels Workshop Georgia Tech: H. Milton Stewart School of Industrial Systems & Engineering, December 3, 2015.

Forest Knowledge Expertise Welfare The cost calculators for sustainable procurement of logging residues, thinning wood and stumps for fuel Juha Laitila.

High Tonnage Forest Biomass Production Systems from Southern Pine Energy Plantations April 8, 2011 Feedstocks Platform Steve Taylor Auburn University This.

ACADEMIA – FOREST MACHINE INDUSTRY COLLABORATION IN SUSTAINABLE ENERGY PRODUCTION University of Eastern Finland Faculty of Science and Forestry Teijo Palander.

Bioenergy in Energy Planning in Bosnia and Herzegovina

The Swedish Energy Agency Technology Department Anders Johansson.

Dr. Dominik Roser Whitehorse Yukon, March 16 th, 2016 Biomass supply chains.

Azeus Machinery Co.ltd Website:

The forestery vehicles in Poland

Forest Resources Unit 4 Chapter 10 S.C.O. 4.6.

The “Natural” Logger - American Beaver

Costs: Harvest and process: $20-$30 per dry ton.

The Swedish National Forest Inventory

A Finnish Approach For Sustainable Forest Management and Energy Security Prof. Hannu Ilvesniemi.

BBE – Markets and Marketing of Bio-based Products

Costs: Harvest and process: $20-$30 per dry ton.

Basic Fire Behavior Walt Thomson

Can managed forest land provide effective strategies for climate change mitigation ? - examples from Sweden IEA Bioenergy Canberra, March 26-30, 2001.

Presentation transcript:

Fulvio Di Fulvio Assistant Researcher Assistant Researcher Department of Forest Biomaterials and Technology Swedish University of Agricultural Sciences Swedish University of Agricultural Sciences Sustainable forest management and biomass supply in Sweden

Million. m 3 standing volume incl. bark Trend for total standing volume since 1920

Annual gross fellings and increment

Stumps Logging residues Forest Fuel supply in Sweden represents 18 TWh/year (logging residues ca. 50%) Today = 11 TWh Potential = ca. 20 TWh Today = 0.5 TWh Potential = ca. 10 TWh (some concerns) Small trees from energy thinning Today = 1.5 TWh Potential = ca. 10 TWh

Branches Stemwood Stump Spruce: 20-35% Pine: 10-25% Spruce: 45-60% Pine: 55-70% Spruce and Pine 20%

Overview of supply chains in final felling

Logging residues 18 EUR/ton DS (forwarding 180m) 18 EUR/ton DS 16 EUR/ton DS (hauling 50 km) Spruce stand Finall felling 80 year old Stemwood =180 ton DS /ha Logging residues (branches and tops) = 50 ton DS /ha

Harvesting “long tops” Increase of forwarded capacity compared to logging residues Forwarder productivity than logging residues Increase of energy volume/ha Partially delimbed tops with the harvester  branchy tops, small trees,  small surfaces for energy-wood removal (<100 m 3 ) Danielsson & J-E Liss

12-15 EUR/ton DS (forwarding 180m) 24 EUR/ton DS (hauling 50 km) 10 EUR/ton DS

Is the soil fertile enough or is there a risk of growth losses (dry soils/peat soils)? ca. 30% of branches should be left on site in Sweden (Swedish Forest Agency). There are more passages of forest machine on site than in roundwood harvesting. On moist soil > it is better to avoid logging residues removal/leave on site a certain amount Harvesting should be on dry or frozen ground on moist soils. It is better for the soil to extract the residues on a frozen ground, but it is more difficult to remove the slashes in the snow. Environmental restrictions

Forest biomass is a bulky material %35-40 %40 %60-70%

Expansion of machines load spaces and load compression stakes and bunks

Slash grapples  avoid contaminations  Increase grapple grip  15–25 % more productive Grapple saw in case of long tops

The storage is matched with the peak demand for fuel that is greater in winter. The logging residues can be stored at the cutting area in heaps or extracted fresh to the landing area. For each percent reduction in moisture content > the energy value increase by two percent. Moisture content can be reduced 20-25% in a good summer. Storage Roadside stacks consider:  Good sun and wind exposure  Not store on a wet ground  Covered stacks >10% lower moisture content than uncovered

Road transportation Truck with side blades for logging residues <50 km distance Truck and trailer for chips Container truck for chips

Chipping at the terminal or industries with large chippers or grinders Comminution Small disc chipper at roadside Chipping at roadside with a forwarder mounted chipper

Market factors and choice of the method/ assortment Modified from Kärhä & Mutikainen 2009

Thanks! Fulvio Di Fulvio Department of Forest Biomaterials and Technology Swedish University of Agricultural Sciences