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Wpływ jakości surowca sosnowego w Puszczy Noteckiej na jego racjonalne wykorzystanie w przerobach mechanicznych
Properties of Lightweight Insulating Boards Produced from Triticale Straw Particles
Insulating materials made from straw are becoming increasingly popular in the construction industry. Straw can be used in the construction of buildings as uncompressed straw chips or in the form of compressed panels. This study aimed to determine the possibility of manufacturing boards from straw particles with densities in the range of 150–400 kg/m3, allowing favorable mechanical properties while simultaneously providing high thermal and acoustic insulation properties. The study also analyzed the influence of the degree of carpentry density on the quality of the manufactured boards. The study shows that insulation boards can be produced from straw particles with satisfactory properties already at densities in the range of 200–150 kg/m3. Boards with this density have a compressive strength of 150 kPa, thermal resistance of 0.033–0.046 W/(m·K), and a sound absorption coefficient above 0.31.
Protein fractions from flaxseed: the effect of subsequent extractions on composition and antioxidant capacity
Flaxseed proteins exhibit functionalities interesting for the food industry, including antioxidant capacity. Antioxidant activity depends on the protein composition and the presence of phenolic compounds extracted with them from the matrix. The research focused on the effect of subsequent protein extractions (water, salt and alkaline) of flaxseed meals (of three cultivars) on the protein fraction composition and its relations to antioxidant capacity. The protein and phenolic profiles and antioxidant functionalities (in antiradical ORAC and emulsion assays) were analysed. Spectroscopic characteristics of the fractions (fluorometric and FT-IR analysis) were also included. Our study has shown the effect of fractionation on the share of proteins at MW from 56–38 kDa (globulin-like) and <15 kDa (albumin-like) in the protein profiles. The highest globulin share was in the alkaline-extracted fractions (AEF) and albumin in the salt-extracted (SEF) ones. SDG (secoisolariciresinol diglucosides) and phenolic acids (p-coumaric and ferulic) were extracted with flaxseed proteins. Their contents were fraction-dependent and the highest in AEF. The concentration of phenolics in AEF corresponded with the highest antiradical capacity (ORAC) compared with the other fractions. However, the SEF showed a higher ability to inhibit oxidation in emulsions than AEF, which could be associated with the higher content of the low MW proteins.
The use of forest biomass for energy purposes in selected european countries
The utilization of primary and secondary woody biomass resources, despite controversies, is being promoted to reduce dependence on fossil fuels and due to the need to diversify energy sources and ensure energy security in European Union countries. Forest biomass is one of the renewable and sustainable energy sources that can be used for electricity, heat, and biofuel production. In the context of the ongoing energy crisis in Europe, an attempt was made to analyze the production and consumption of woody biomass for energy purposes (fuel wood, chips, and pellets). Specifically, an analysis of similarities between European countries in terms of biomass utilization was conducted. The analysis was complemented by a forecast of primary biomass production in selected European countries. The similarity analysis was conducted using the Ward method. Artificial neural networks (ANNs), including multi-layer feedforward perceptron (MLP) and radial basis function (RBF) models, were used to predict fuelwood extraction. The study showed that woody biomass remains an important source of bioenergy in Europe, and its significance as a strategic resource guaranteeing energy security is likely to increase. Fuel wood harvesting in Europe generally shows an upward trend, particularly in the Czech Republic, Germany, Estonia, Denmark, and the UK. A decreasing trend was observed in France, Spain, Greece, and Cyprus. The analysis revealed differences between countries in terms of woody biomass consumption. The ANN-based forecasts of fuelwood supply generally showed an increase in primary biomass harvesting.
Determinants of social attitudes towards fees and restrictions on the use of the Wielkopolska National Park
The purpose of this paper was to present the results of research on the willingness of visitors to Wielkopolska National Park (WNP) to pay fees for using its resources and to assess their attitudes towards hypothetical restrictions on access to the park. The analysis was based on survey data from 2012 and 2025, obtained using the following techniques: Paper and Pencil Interviewing (PAPI) and online surveys based on the Computer-Assisted Web Interviewing (CAWI) technique, administered via Internet platforms. A total of 860 valid questionnaires were examined, and a logit model and correspondence analysis were used for the investigation. The findings suggest that the propensity to pay fees is mostly contingent upon the extent of awareness of natural values, the inclination to engage in park maintenance, perspectives on environmental financing mechanisms, and affiliation with environmental organisations. In turn, demographic factors proved to be insignificant. The analysis of the expected compensation for access restrictions demonstrated the influence of age, gender, environmental views, and distance from the WNP. The research findings corroborate that respondents’ attitudes towards environmental financing are predominantly influenced by their environmental awareness and beliefs.
Development programming in the forest-based sector under economic uncertainty - the case of Poland during the pandemic and post-pandemic crisis
The study discussed the possibilities of reducing economic uncertainty under crisis conditions, as one perspective to eliminate the risk of business decisions. The solution was sought on the case of forestry-based sector in Poland, which was threatened by irregularity and permanent uncertainty. Stakeholders of the 'primary wood-based market', in the value chain: forestry - forestry services - woodworking industry, were invited to participate in a diagnostic survey, using the technique of individual in-depth interviews (IDI). The data, collected in 2020 and revised in 2024, was processed in the Analytic Hierarchy Process. Based on the AHP approach, the authors' research scenario was designed. As a result, an optimal leading anti-crisis strategy was selected, relevant to the ‘market of uncertainty’. An opportunity for the forest-based sector could be an anti-crisis co-opetition strategy, based on networking, integrating all market actors. Finally, practical recommendations for mesoeconomic sectoral policy in forestry were formulated.
GL Beams Reinforced with Plywood in the Outer Layer
Glulam beams are increasingly used in the construction industry because of their high strength and the possibility of using round timber with smaller cross-sections. The load-bearing capacity of beams is strongly related to the quality of the outer layers and, in the case of wood, especially the tension zones. For these reasons, this study decided to replace the outer lamella with tensile plywood. The produced beams were subjected to static bending strength and modulus of elasticity evaluation. It was shown that the best static bending strength values were obtained for beams containing plywood in the tension layer. However, the change in structure in the tension zone of beams made of glued laminated timber results not only in an increase in the load capacity of elements produced in this way but also in a decrease in the range/range of the obtained results of bending strength. This way of modifying the construction of glued laminated beams allows a more rational use of available pine timber.
Verification of the Assumptions of the Polish State Forest Policy in the Context of the New EU Forest Strategy 2030
Despite the lack of legal tools to interfere in the forest policy of the member states, the European Union has initiated the New EU Forest Strategy 2030 (NFS), which emphasizes the protective functions of forests, modifying the interpretation of sustainable forest management. The aim of the study was to compare the State Forest Policy (SFP) in Poland with the assumptions of the New UE Forest Strategy 2030, identifying challenges for Polish forestry. The compliance of both documents was verified, taking into account their objectives, implementation methods, and differences. The analysis showed the coherence of the direction of both policies, while the differences in the methods of achieving the objectives result from divergent interpretations of the concept of sustainable forest management. It is necessary to develop a new definition taking into account the conditions of EU countries and to develop a system of measures enabling the comparison of the degree of implementation of this goal. Previous EU strategies had minimal impact on national legal systems. Diverse concepts of forest management in EU countries make it difficult to implement a common long-term strategy, giving subsequent documents a general character. NFS is a theoretical document presenting a vision of forests from the perspective of EU policy, and SFP serves as a historical document that can be a reference point for modifying assumptions based on contemporary realities. Creating normative acts without taking into account contemporary conditions may be contrary to the direction of development of forestry in Europe. A bottom-up approach, based on consensus of member states, to creating a coherent forest policy at the EU level is more justified.
Kiln-drying effectiveness as influenced by moisture content and density variation within a Scots pine timber batch
Video Extensometer Characterization of Mechanical Properties in Modified Fibreboard Layers
The resistance of screws to being pulled out of wood-based panels depends largely on the mechanical properties of the substrate. The properties of medium-density fibreboard (MDF) are locally reinforced in the area where the fastener is embedded. The aim of the study is to determine the effect of using polyurethane (PUR) adhesives as a reinforcing agent. The aim of the study is to determine the elastic properties of individual layers of MDF boards modified with a polyurethane agent (PUR 555.6) applied to the outer and inner layers of the material. Deformations during axial compression of multilayer samples were measured using a digital optical video extensometer with digital image correlation (DIC). The reinforced board showed a significant increase in stiffness in all main orthotropic directions. The stiffness of the inner layers increased by approximately 100%–160%, while that of the outer layers increased by 30%–60%. The shear modulus increased by 60%–70% in the inner layers and by up to 45% in the outer layers. The results confirm the effectiveness of the optical video extensometer method as a fast and reliable technique for determining the mechanical properties of modified layered wood composites.
Comparative Analysis of the Flammability Characteristics of Historic Oak Wood from 1869 and Contemporary Wood
Public Perception of the Use of Woody Biomass for Energy Purposes in the Evaluation of Content and Information Management on the Internet
The purpose of this study was to provide an overview of the public perception of the increase in forest biomass production, particularly in Poland, in the context of global and European Union (EU) climate and energy policy directions. Trends regarding the justification of biomass production in the EU and the world were also analyzed. The study compared the results of public sentiment surveys concerning the use of biomass in Poland as a member state of the European Union. The results are presented in tabular and graphical form. Data were obtained from analyses of social websites, study reports, and information social media in Poland. This study shows an increase in the negative perception of biomass use nationally and globally. It can be concluded that the increasing trend of forest biomass extraction resulted from the growing demand for green energy sources. Changes in European Union policy affected the popularization of biomass production worldwide as a result of growing energy demand. The use of renewable energy sources is necessary to reduce environmental degradation and secure society’s growing energy needs. It is necessary to increase the flow of information about the importance of forest biomass for the environmental aspects of society in order to gain acceptance of the EU’s promoted direction of stable renewable energy.
The Impact of Selected Market Factors on the Prices of Wood Industry By-Products in Poland in the Context of Climate Policy Changes
The objective of this study was to analyze price variability and the factors influencing the formation of monthly prices of by-products of the wood industry in Poland between October 2017 and January 2025. The analysis considered the impact of economic variables, including energy commodity prices (natural gas and coal) and industrial wood prices, on the pricing of wood industry by-products. The adopted approach enabled the identification of key determinants shaping the prices of these by-products. The effectiveness of two tree-based regression models—Random Forest (RF) and CatBoost (CB)—was compared in the analysis. Although RF offers greater interpretability and lower computational requirements, CB proved more effective in modeling dynamic, time-dependent phenomena. The results indicate that industrial wood prices exerted a weaker influence on by-product prices than natural gas prices, suggesting that the energy sector plays a leading role in shaping biomass prices. Coal prices had only a marginal impact on the biomass market, implying that changes in coal availability and pricing did not directly translate into changes in the prices of wood industry by-products. The growing role of renewable energy sources derived from natural gas and wood biomass is contributing to the emergence of a distinct market, increasingly independent of the traditional coal market. In Poland, due to limited access to alternative energy sources, biomass plays a critical role in the decarbonization of the energy sector.
The rate of change in the salaries of employees of the State Forests compared to selected sectors of the economy in Poland
The Potential of the Bioenergy Market in the European Union—An Overview of Energy Biomass Resources
One of the bases of the European policy and energy strategy is the biomass and bioenergy obtained from it. It is estimated that by 2023, the annual demand for biomass will have increased from the current level of 7 EJ to 10 EJ. There are significant differences between estimates of the bioenergy potential due to the fact that the authors of publications do not use consistent methodology and assumptions. Forest biomass, agricultural residues, and energy crops are the three main sources of biomass for energy production. Energy crops are likely to become the most important source of biomass. Land use and its changes are a key issue in the sustainable production of bioenergy as the availability of biomass determines its potential for energy security. This article is a review of the latest publications on the bioenergy potential of the member-states of the European Union. The consumption of energy and its potential were presented, with a special focus on renewable sources, especially biomass. The potential of biomass resources was presented and the types of biomass and its sources of origin were indicated. The research was conducted on the member-states of the European Union, whose policy is based on long-term development from the dependence on fossil resources to the dominance of renewable resources. As results from the research, in recent years, there has been a significant increase in the potential of both forest biomass (from 4.8 EJ per annum to the forecasted 15 EJ per annum) and agricultural biomass from (from 2.3 EJ per annum to the forecasted 7 EJ per annum). The increase in the demand for energy biomass in the EU member-states is balanced by partial imports from non-EU countries.
Elements of Designing Upholstered Furniture Sandwich Frames Using Finite Element Method
This paper presents an approach to the design of an upholstered furniture frame using the finite element method and empirical studies. Three-dimensional discrete models of upholstered furniture frames were developed taking into account orthotropic properties of solid pine wood (Pinus sylvestris L.) without and with details strengthening their structure in the form of glue joints and upholstery staples. Using the CAE Autodesk Inventor Nastran finite element method, linear static analyses were performed by simulating normative loading. The finite element method was performed considering the experimentally determined stiffness coefficients of the PCAC adhesive and staple joints. As a result, stress, displacement, and equivalent strain distributions were obtained for upholstered furniture frame models with stapled corner joints. The deformation and strength behavior of the upholstered furniture frames was improved by reinforcing with a wood strip. A new approach to the design of upholstered furniture frame frames using the FEM method with stapled component connections was developed and tested. The results of the study can be applied in the optimization of upholstered furniture construction.
Quality and Dimensional Parameters of Large-Sized Pine Timber in View of Expectations of Polish Sawmill Industry
Changes in the processing directions of round wood require the selection of raw material with appropriate quality and dimensional characteristics. In the case of large-size pine wood, these parameters translate significantly into its value and material indicators. The purpose of the research was to verify the currently applied classification principles with respect to the expectations of the market of wood industry customers. The research was conducted using the direct survey method, taking into account the structure of processing and sorting of production of wood industry representatives. The basic dimensional and quality groups for coniferous wood were separated, with wood defects assigned to them, in accordance with the currently binding principles of the quality and dimensional classification conducted by the State Forests. The respondents pointed out the necessity of changes in the minimum dimensions for wood of higher quality classes and changes in admissibility of selected defects in wood of lower classes.
Cost of Regeneration of Scots Pine (Pinus sylvestris L.) Crops in National Forests
Silvicultural processes are an essential issue of rational forest management. Both man-made (artificial) and natural restoration methods are used in European forestry. A study of the cost drivers of forest restoration from the early stages of land clearing to cultivation was conducted for Scots pine tracts in a coniferous forest habitat. The cost data were tested for homogeneity of variance (Levene’s test) and normality (Shapiro–Wilk test) using a significance level of α = 0.05. The research indicated that the cost of artificial restoration (planting) of a pine forest is about 30% higher than the cost of natural restoration. The research also indicated that the main cost driver (about 35%) of the artificial restoration process was seedlings and planting costs. Further, the viability of supplementing natural planting with artificial planting was confirmed.
