RIC
Regional Information Centre
for Scientific and Technological Cooperation with EU
 

Scientific Organisation Questionnaire

Voronezh State Academy of Forestry Engineering 
The type of the organization  
Country RU 
Region Voronezh region 
City Voronezh 
Coordinator Scientific and research department,  Head of scientific and research of VSAFE,  -,  Bahkardina Eugenia A.
Address RU, Voronezh region, 394613 Voronezh VSAFE, 8, ul. Timiryazeva
Telephone +7-4732-537651 
Fax
Email
web-page http://www.vglta.vrn.ru
Brief Description
Offers of high school on participation in joint researches with the European universities within the limits of thematic priorities of the Seventh frame program of scientifically-technological development of EU
Cooperation Food, Agriculture and Fisheries, and Biotechnology Sustainable production and management of biological resources from land, forest and aquatic environments
Elaboration of profitable environment protecting technologies for treatment of air and waste waters from highly toxic organic substances at woodworking enterprises
The brief description of the project  Main components of gaseous and liquid wastes from woodworking industry are phenol, formaldehyde, styrene, acetic and formic acids and several other substances highly toxic for environment. In order to elaborate profitable, resource-saving and environment protecting technology it is suggested to apply new economically sound high effective adsorbents on the bases of natural materials (clay minerals), as well as synthetic sorbents obtained from wastes of woodworking industry.
Expected results  Present project is directed to solution of the following tasks: 1. Investigation of adsorption of industrial toxicants from the air and production areas of manufactures by natural materials (zeolite and clay minerals); 2. Investigation of adsorption of organic substances from indusrial waste water; 3. Increase of selectivity and efficiency of natural sorbents by means of thermal and reagent modification (acid and base treatment); activation with polyorganosiloxanes; 4. Synthesis and investigation of adsorption properties of new sorbents obtained from wastes of woodworking industry; 5. Development of technology for purification of waste waters and the air of production area of manufactures; 6. Development of an effective and environment friendly method for utilization of waste sorbents; 7. Application of the sorbents for practical waste waters and air treatment at real manufactures.
Keywords  Air/waste water purification adsorbents clay minerals modification economically sound
Published works  
Date of last change of the project  21.02.2008
Family Name and first name of a contact person  Bel’chinskaya Larissa I.
Position in Organization  Head of chair
Title  D.Sc., professor
Department/Unit, Chair  Department of Chemistry
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http://www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537659
Telefax  +7-4732-537651
The countries of partners under the project  Austria, Argentina, Belgium, Bulgaria, United Kingdom, Hungary, Germany, Greece, Denmark, Spain, Italy, Netherlands, Poland, Portugal, Romania, Slovakia, Finland, France, Czech republic, Sweden
Types of the project
  • Small or medium-scale focused research project) (STREP)
  • Collaborative project (CP)
  • Large-scale integrating project (IP)
 
Genetics, selection and reproduction of tree species
The brief description of the project  Cytologic monitoring of insular coniferous forests of forest-steppe (Khrenovskoy, Usmanski), structure based on the isoenzymes and essential oil analysis of natural coniferous forests and artificial plantations. Obtaining new forms on the basis of hybridization of poplar, birch and alder. Technologies of creating oak cultures in oak groves.
Expected results  Monitoring of insular coniferous forests; poplar, birch and alder brands.
Keywords  genetics selection cultures pine oak poplar alder birch
Published works  
Date of last change of the project  01.06.2007
Family Name and first name of a contact person  Chernodubov Alexey I.
Position in Organization  Head of chair
Title  D.Sc., professor
Department/Unit, Chair  Department of wood cultures and selections
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http//www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537606
Telefax  +7-4732-538411
The countries of partners under the project  United Kingdom, Germany, France
Types of the project
  • Collaborative project (CP)
 
FP7-KBBE-2008-2B KBBE-2008-1-2-06 Area: The influence of inbreeding on the display of some quantitative features in a downy birch and silver birch
The brief description of the project  Inbreeding, or closely related crossing, is always connected with the decrease of phenotypical values of quantitative features in certain groups of plants. Inbreeding in self-pollinating plants (wheat, barley, peas, beans, peppers, citrus plants, cotton, etc.) is a normal phenomenon. In cross- pollinating plants and animals inbreeding can result in the action of harmful recessive genes, which in a homozygous state cause partial (sublethal and subvital genes) or full (lethal genes) destruction of organisms. Harmful influence of inbreeding is often revealed, for example, in self-pollination of corn, potatoes or cabbage (the decrease in intensity of growth, fertility; the appearance of anomaly and deformities). In hens annual coupling «brother x sister» leads to the hereditary decrease in egg-laying qualities and vitality. In human beings marriages between cousins result in the growth of frequency of hereditary diseases (especially rare ones) in children; inborn deformities, stillbirths and deaths in early age are more frequent than in unrelated marriages, by 24—48 %. It is suggested to check the effects of inbreeding on quantitative features of woody plants (tree height, trunk diameter) by carrying out a controllable self-pollination and free pollination in a downy birch and silver birch.
Expected results  Stage-by-stage production of a necessary plant material will make it possible to check the necessary theoretical preconditions obtained as a result of tests on annual plants. An ultimate aim of the work is to obtain selfed lines in birch.
Keywords  Mating systems Inbreeding Outbreeding Self-fertility Self-sterility Downy birch Silver birch Quantitative features Heredity Hybridization
Published works  
Date of last change of the project  26.02.2008
Family Name and first name of a contact person  Isakov Igor J.
Position in Organization  Senior lecturer
Title  Ph.D.
Department/Unit, Chair  Depertment of silver stands and breeding
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http//www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537606
Telefax  +7-4732-537651
The countries of partners under the project  United Kingdom, Germany, Denmark, Sweden
Types of the project
  • Collaborative project (CP)
 
Development of technological operations and machines for the accelerated cultivation of a landing material and reforestation
The brief description of the project  Development of technological operations and machines for the accelerated cultivation of a landing material and reforestation
Expected results  Technological operations on the accelerated cultivation of the seedlings of various breeds in nurseries will be proved. Mathematical models will be created and geometrical and kinematics parameters of working bodies of machines for their realization are optimized. The technological operations providing accelerated development of wood cultures will be developed. Metamathematical models will be created and geometrical and kinematic parameters of working bodies of machines for them are optimized.
Keywords  reafforestation the save of resources windbreak fields nursery cutting down seedlings rootpruner toppruner bushcutter stump puller (uprooting divece)
Published works  
Date of last change of the project  22.06.2007
Family Name and first name of a contact person  Drapalyuk Mikhail V.
Position in Organization  Senior lecturer
Title  D.Sc., professor
Department/Unit, Chair  Chair of mechanization of a forestry and designing of machines
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http//www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537251
Telefax  +7-4732-537240
The countries of partners under the project  Austria, Argentina, Belgium, Bulgaria, United Kingdom, Hungary, Germany, Greece, Denmark, Spain, Italy, Netherlands, Poland, Portugal, Romania, Slovakia, Finland, France, Czech republic, Sweden
Types of the project
  • Collaborative project (CP)
 
FP7-KBBE-2009-3 (KBBE-2009-1-2-08) Assessing and reducing vulnerability of European forests to climate change and the consequences for industrial and societal needs
The brief description of the project  Forestry faculty suggests estimation of the following resources:
  1. Biodiversity and recovery of main forest species of Russian South;
  2. Intrapopulation structure of autochthonous populations of Pinus silvestris L., oak (Quercus robur), silver birch (Betula pendula L.), downy birch (Betula pubescens L.), Populus tremula L., Populus L.;
  3. Cytologic estimation of selectional and rare forms of wood plants;
  4. Physiological estimation of condition of selectional forms of birch;
Expected results  -
Keywords  Fast-growth forest trees Hybridization Mating system Quantitative features Biodiversity
Published works  
  1. Isakov I.Yu. (2005) Morphological variability of leaves in some artificial Birch hybrids (International Botanical Congress, Vienna, Austria, July 17-23. P. 632).
  2. Isakov I. Growth dynamics of local Birch families obtained by different pollination types // VI International Meeting of Young Scientists «Eurasian Forests – Hungarian Forest», Moscow - Sopron, PH MSFU, July 4-9, 2006.- P. 46-48.
  3. Isakov I. Inheritance of leaf´s shape in some birch hybrids // VII International Meeting of Young Scientists «Eurasian Forests – Russian North», Moscow - Petrozavodsk , PH MSFU, July 9-17. 2007.- P. 37-39.
  4. Isakov I., Isakov Yu. Peculiarities of growth and development of seed progeny in silver birch, downy birch and ordinary pine (Pinus sylvestris) produced by different pollination methods. (XX International Congress of Genetics, Berlin, Germany, July 12-17. P.323).
  5. Sivolapov A.I. Different levels of mixoploidy in hybrid poplars / A.I/ Sivolapov, T/A/ Blagodarova // Cytogenetic studies of forest trees and shrub species. IUFRO Cytogenetics symposium, 8 – 11. 09. 1993. – Croatian Forests, Inc., Zagreb, - 1997. – P. 311 – 316.
  6. Sivolapov A.I. Changeability of mixoploidy level in Tree Species as Stability Regulation Mechanism for Extreme Environment Conditions // Assessment Methods of Forest Ecosystem Status and Sustainability. Workshop (August 8-13, 1999, Krasnoyarsk, Russia). Abstracts.- Krasnoyarsk: V.N. Sukachev Institute of Forest SB RAS, 1999.-S. 152-153.
Date of last change of the project  13.11.2008
Family Name and first name of a contact person  Sivolapov Alexey I.
Position in Organization  Head of Chair
Title  DSc, professor
Department/Unit, Chair  Chair of Forest Stands and Breeding
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http://www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537606
Telefax  +7-4732-537651
The countries of partners under the project  All
Types of the project
  • Collaborative project (CP)
 
Nanosciences, Nanotechnologies, Materials and New Production Technologies - NMP Materials
The research and development of intensive technology of producing the dispersed-filled polymeric materials with high physical and mechanical properties
The brief description of the project  The purpose of this project is development of technology of producing the dispersed-filled polymeric materials (films, filler plates, coverings, glutinous layers and block polymers) with the set high characteristics concerning heat conductivity, electric conductivity and durability by processing material at a stage of hardening of polymeric composition in magnetic, electric and mechanical fields.
Expected results  It is expected to receive the final material of the set high properties in the process of processing of dispersed-filled polymeric materials separately in magnetic, electric and mechanical fields or in the process of complex processing by change of polymer nature and filling material, its concentration, intensity of fields, frequencies of vibration, temperature conditions and other parameters. It is planned to exceed the coefficient of heat conductivity of polymer up to 1 Watt/m. K, to lower the specific volumetric resistance up to 0,5.10-3 Ohm. cm and less, to raise the durability of glued joints on 40 - 50 %.
Keywords  Polymer Filling material Heat conductivity Durability Magnetic field Electric field Intensity Ultrasound
Published works  
Date of last change of the project  01.06.2007
Family Name and first name of a contact person  Popov Viktor M.
Position in Organization  Head of chair
Title  D.Sc., professor
Department/Unit, Chair  Faculty of electrical engineering, heat engineering and hydraulics
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http//www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537308
Telefax  +7-4732-537651
The countries of partners under the project  Germany, France
Types of the project
  • Small or medium-scale focused research project) (STREP)
 
FP7-NMP-2008-CSA-2 NMP-2008-2.6-3 Area: Rational schedules development for high frequency heating (HF-heating) and solid wood bending
The brief description of the project  Industrial HF-oven construction aimed at pre-bending stocks’ plasticizing. Rational temperature regimes development for different wood species; 2) Rational schedules research for solid wood bending in view of modern picture of the wood deformation properties.
Expected results  I) Significant wood bending productivity increase on the basis of: a) plasticizing acceleration; b) stabilizing drying time reduction; II) Working conditions improvement due to production automatization; III) Production quality increase with the help of new technologies; IV) Energy and labour reduction.
Keywords  HF-heating HF-oven Plasticizing Schedule Wood bending Fixation of deformation
Published works  
Date of last change of the project  10.04.2008
Family Name and first name of a contact person  Filonov Alexander A.
Position in Organization  professor
Title  D.Sc., professor
Department/Unit, Chair  Chair of Woodworking
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http://www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537651
Telefax  +7-4732-537651
The countries of partners under the project  Germany, Denmark, Czech republic
Types of the project
  • Small or medium-scale focused research project) (STREP)
 
New Production
The research and development of intensive technology of producing the dispersed-filled polymeric materials with high physical and mechanical properties
The brief description of the project  The purpose of this project is development of technology of producing the dispersed-filled polymeric materials (films, filler plates, coverings, glutinous layers and block polymers) with the set high characteristics concerning heat conductivity, electric conductivity and durability by processing material at a stage of hardening of polymeric composition in magnetic, electric and mechanical fields.
Expected results  It is expected to receive the final material of the set high properties in the process of processing of dispersed-filled polymeric materials separately in magnetic, electric and mechanical fields or in the process of complex processing by change of polymer nature and filling material, its concentration, intensity of fields, frequencies of vibration, temperature conditions and other parameters. It is planned to exceed the coefficient of heat conductivity of polymer up to 1 Watt/m. K, to lower the specific volumetric resistance up to 0,5.10-3 Ohm. cm and less, to raise the durability of glued joints on 40 - 50 %.
Keywords  Polymer Filling material Heat conductivity Durability Magnetic field Electric field Intensity Ultrasound
Published works  
Date of last change of the project  01.06.2007
Family Name and first name of a contact person  Popov Viktor M.
Position in Organization  Head of chair
Title  D.Sc., professor
Department/Unit, Chair  Faculty of electrical engineering, heat engineering and hydraulics
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http//www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537308
Telefax  +7-4732-537651
The countries of partners under the project  Germany, France
Types of the project
  • Small or medium-scale focused research project) (STREP)
 
Nanosciences and Nanotechnologies
FP7-NMP-2008-CSA-2 NMP-2008-2.6-3 Area: Rational schedules development for high frequency heating (HF-heating) and solid wood bending
The brief description of the project  Industrial HF-oven construction aimed at pre-bending stocks’ plasticizing. Rational temperature regimes development for different wood species; 2) Rational schedules research for solid wood bending in view of modern picture of the wood deformation properties.
Expected results  I) Significant wood bending productivity increase on the basis of: a) plasticizing acceleration; b) stabilizing drying time reduction; II) Working conditions improvement due to production automatization; III) Production quality increase with the help of new technologies; IV) Energy and labour reduction.
Keywords  HF-heating HF-oven Plasticizing Schedule Wood bending Fixation of deformation
Published works  
Date of last change of the project  10.04.2008
Family Name and first name of a contact person  Filonov Alexander A.
Position in Organization  professor
Title  D.Sc., professor
Department/Unit, Chair  Chair of Woodworking
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http://www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537651
Telefax  +7-4732-537651
The countries of partners under the project  Germany, Denmark, Czech republic
Types of the project
  • Small or medium-scale focused research project) (STREP)
 
Environment (Including Climate Change) Environmental Technologies
Elaboration of profitable environment protecting technologies for treatment of air and waste waters from highly toxic organic substances at woodworking enterprises
The brief description of the project  Main components of gaseous and liquid wastes from woodworking industry are phenol, formaldehyde, styrene, acetic and formic acids and several other substances highly toxic for environment. In order to elaborate profitable, resource-saving and environment protecting technology it is suggested to apply new economically sound high effective adsorbents on the bases of natural materials (clay minerals), as well as synthetic sorbents obtained from wastes of woodworking industry.
Expected results  Present project is directed to solution of the following tasks: 1. Investigation of adsorption of industrial toxicants from the air and production areas of manufactures by natural materials (zeolite and clay minerals); 2. Investigation of adsorption of organic substances from indusrial waste water; 3. Increase of selectivity and efficiency of natural sorbents by means of thermal and reagent modification (acid and base treatment); activation with polyorganosiloxanes; 4. Synthesis and investigation of adsorption properties of new sorbents obtained from wastes of woodworking industry; 5. Development of technology for purification of waste waters and the air of production area of manufactures; 6. Development of an effective and environment friendly method for utilization of waste sorbents; 7. Application of the sorbents for practical waste waters and air treatment at real manufactures.
Keywords  Air/waste water purification adsorbents clay minerals modification economically sound
Published works  
Date of last change of the project  21.02.2008
Family Name and first name of a contact person  Bel’chinskaya Larissa I.
Position in Organization  Head of chair
Title  D.Sc., professor
Department/Unit, Chair  Department of Chemistry
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http://www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537659
Telefax  +7-4732-537651
The countries of partners under the project  Austria, Argentina, Belgium, Bulgaria, United Kingdom, Hungary, Germany, Greece, Denmark, Spain, Italy, Netherlands, Poland, Portugal, Romania, Slovakia, Finland, France, Czech republic, Sweden
Types of the project
  • Small or medium-scale focused research project) (STREP)
  • Collaborative project (CP)
  • Large-scale integrating project (IP)
 
FP7-ENV-2009-1: ENV.2009.3.3.1.1, ENV.2009.3.3.2.1 Application of zeolites, clay minerals and several industrial wastes as eco-sorbents for development of environment protecting and resource-saving technologies
The brief description of the project  Several regions of Russia and European countries have rich deposits of cheap minerals such as zeolites (clinoptilolite), clay minerals of layered structure (montmorillonite) and layer-band structure (palygorskite) which are materials with active adsorption ability. Nanoporosity of these minerals varies within 0.4-100 nm that allows application of these natural materials as eco-sorbents of organic compounds from industrial emissions and wastes. Under certain conditions some liquid and solid industrial wastes could be the sources for production of effective ecological sorbents having selectivity to highly toxic industrial pollutants.
Expected results  Production of effective eco-sorbents with high adsorption and selectivity towards highly toxic industrial pollutants. Determination of kinetic, thermodynamic and equilibrium parameters during the process of ecologization of industrial production and reduction of ecological damage. Development of environment protecting, resource-saving technology by means of produced eco-materials.
Keywords  Ecology, eco-sorbents, zeolite, clay minerals, industrial wastes, advanced technology
Published works  
  • Novikova, L. A. Effect of Treatment with Acids on the State of the Surface of Natural Clay Minerals / L. A. Novikova, L. I. Bel’chinskaya, F. Roessner // Russian Journal of Physical Chemistry. – 2006. – Vol. 80. – No.1. – pp. S185-S188.
  • Bel’chinskaya, L. I. Adsorption Characteristics of Nanoporous Montmorillonite Activated with Orthophosphoric Acid / L. I. Bel’chinskaya, K. A. Kozlov, S. S. Chitechan, A. V. Bondarenko, G. A. Petukhova, and M. L. Gubkina // Protection of Metals, 2008, Vol. 44, No. 3, РР. 275–279.
  • Bondarenko, A.V. Modifying the Composition and Adsorption Properties of a Montmorillonite Surface Layer by Acidic Activation / A. V. Bondarenko, Yu. Ya. Filonenko, L.I. Bel’chinskaya, M. L. Gubkina, N.S. Polyakov // Russian Journal of Physical Chemistry. – 2005. – Vol. 79. – No. 7. – PP.1126-1130.
Date of last change of the project  24.12.2008
Family Name and first name of a contact person  Bel’chinskaya Larissa I.
Position in Organization  Head of Chair
Title  D.Sc., professor
Department/Unit, Chair  Chair of Chemistry
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http://www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537659
Telefax  +7-4732-537651
The countries of partners under the project  All
Types of the project
  • Collaborative project (CP)
 
Sustainable Management of Resources
Computer technologies for the increasing of coniferous forests
The brief description of the project  Mathematical modelling of age dynamics of diameters, heights, sums of area cut, stores, accelerations on the 1 hectare of stemwood (pine trees, fir trees) is conducted. Reaction models of such taxation indexes on the periodic thinning, algorithms, computer technologies programs for the increasing of coniferous forests productivity is developing. Results create the system of computer management by means of increasing of coniferous forests productivity with definition and realization of optimal periodicity property, intensification of age thinning of fir woods with minimization of ecologic damage to trees.
Expected results  The reduction of age of fir trees technical ripeness for the period of 10-15 years, the increase for 15-20% volume of stemwood from 1 hectare for 1 year forestation.
Keywords  Models Algorithms Programs Computer technologies Forests" productivity Ecological effect Economic effect
Published works  
Date of last change of the project  01.06.2007
Family Name and first name of a contact person  Petrovskiy Vladislav S.
Position in Organization  Head of chair
Title  D.Sc., professor
Department/Unit, Chair  Computer-aided manufacturing department
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http//www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537050
Telefax  +7-4732-538461
The countries of partners under the project  Germany, Finland, Sweden
Types of the project
  • Network of excellence (NoE)
 
The basic scientific directions of the organization within the limits of thematic priorities
Cooperation Nanosciences, Nanotechnologies, Materials and New Production Technologies - NMP Nanosciences and Nanotechnologies
Using of physical fields for improvement of physical and mechanical characteristics of polymeric compositional materials
The brief description of the project  -
Keywords  
Published works  
Date of last change of the project  01.06.2007
Family Name and first name of a contact person  Popov Viktor M.
Position in Organization  Head of electrical engineering, heating engineer
Title  Doct. of tech.sciences, prof.
Department/Unit, Chair  
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http//www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537651
Telefax  -
The countries of partners under the project  
Materials
Using of physical fields for improvement of physical and mechanical characteristics of polymeric compositional materials
The brief description of the project  -
Keywords  
Published works  
Date of last change of the project  01.06.2007
Family Name and first name of a contact person  Popov Viktor M.
Position in Organization  Head of electrical engineering, heating engineer
Title  Doct. of tech.sciences, prof.
Department/Unit, Chair  
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http//www.vglta.vrn.ru
E-mail address  
Telephone  +7-4732-537651
Telefax  -
The countries of partners under the project  
Environment (Including Climate Change) Climate Change, Pollution, and Risks
Radical improvement of environment-formation role of the forest for the purpose of climate stabilisation and natural catastrophe risck reduction
The brief description of the project  -
Keywords  
Published works  
Date of last change of the project  01.06.2007
Family Name and first name of a contact person  Arefjev Yuri F.
Position in Organization  Prof.
Title  Doctor of Science, Professor
Department/Unit, Chair  
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http://www.yuarefjev.narod.ru
E-mail address  
Telephone  +7-4732-730998
Telefax  +7-4732-730998
The countries of partners under the project  
Sustainable Management of Resources
Radical improvement of environment-formation role of the forest for the purpose of climate stabilisation and natural catastrophe risck reduction
The brief description of the project  -
Keywords  
Published works  
Date of last change of the project  01.06.2007
Family Name and first name of a contact person  Arefjev Yuri F.
Position in Organization  Prof.
Title  Doctor of Science, Professor
Department/Unit, Chair  
Address  RU, Voronezh region, 394613 Voronezh VSAFE 8, ul. Timiryaseva
WWW address (URL)   http://www.yuarefjev.narod.ru
E-mail address  
Telephone  +7-4732-730998
Telefax  +7-4732-730998
The countries of partners under the project  
Participation in FP5/6 or INTRAS or others. The submitted and supported projects
ECOWASTE, “Eco-chemicals from organic wastes for sustainable land-use”
Family Name and first name of a contact person   Bel"chinskaya Larissa I.
Types of the project  
  • Collaborative project (CP)
Telephone  +7-4732-537659
Telefax  +7-4732-537651
E-mail address  
WWW address (URL)  
Implement_period