Laima Vēvere scite author profile

In recent decades, vegetable oils as a potential replacement for petrochemical materials have been extensively studied. Tall oil (crude tall oil, distilled tall oil, tall oil fatty acids, and rosin acids) is a good source to be turned into polymeric materials. Unlike vegetable oils, tall oil is considered as lignocellulosic plant biomass waste and is considered to be the second-generation raw material, thus it is not competing with the food and feed chain. The main purpose of this review article is to identify in what kind of polymeric materials wood biomass-based fatty acids and rosin acids have been applied and their impact on the properties.

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Two approaches for introduction of wheat straw lignin into rigid polyurethane foams

Arshanitsa¹,

Paberza²,

Vēvere³

et al. 2014

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Development of the Approaches for Complex Utilization of Brown Algae (Fucus Vesiculosus) Biomass for the Obtaining of Value-Added Products

Bikovens

Ponomarenko

Janceva

et al. 2018

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The seaweed collected after stranding on beaches of Latvia is underexploited natural resource, which has a potential as raw material for biologically active compound extraction for cosmetic and pharmacy and fertilizer in sustainable agriculture. The aim of the present study was development of the approach for the processing of brown alga Fucus vesiculosus biomass, collected from the Gulf of Riga. The thorough characterization of the chemical composition of Fucus vesiculosus has shown that it is a potential source for obtaining of nitrogen-containing fertilizers, and biologically active compounds. One of the proposed approaches for the processing of the Fucus vesiculosus biomass under study includes algae extraction with organic solvents and CaCl2 solution and obtaining soil organic amendment on the basis of the extract-free residue. The ethyl acetate extract was rich in phenolic compounds (430 ± 30 GAE mg/g) with high antioxidant activity in DPPH• and ABTS•+ tests. The ethanol extract contained significant amounts of phlorotannins that was confirmed by the data of LC-MS/MS analysis. The CaCl2 extract was used for the obtaining of sulphated polysaccharide fucoidane (yield ≈7% on the basis of oven dry matter, o.d.m.), which has numerous biological activities. The extract-free residue didn’t show phytotoxicity. The extract free algal biomass exhibited positive effect in root elongation tests with oat (Avena sativa). As alternative approach for processing of the algal biomass, the mechano-chemical treatment of algal biomass with lignin was proposed. EPR analyses confirmed interaction between algal biomass and lignin.

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Lignin – Derived antioxidants as value-added products obtained under cavitation treatments of the wheat straw processing for sugar production

Lauberte

Телышева

Cravotto

et al. 2021

Journal of Cleaner Production

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Polyurethane Foam Composites Reinforced with Renewable Fillers for Cryogenic Insulation

Sture¹,

Vēvere²,

Kirpļuks³

et al. 2021

Polymers

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Sawdust, microcellulose and nanocellulose and their silanized forms were used to reinforce rigid polyurethane (PU) foam composites. The concentration of fillers was varied in the range of 0.5–1.5%. For rigid PU foam formulations, three polyols from recycled and renewable materials were used, among other components. Polyols were obtained from rapeseed oil, tall oil fatty acids and recycled polyethylene terephthalate. As rigid PU foam composites in literature have been described as appropriate thermal insulation material, the appliance of obtained composites for cryogenic insulation was investigated by determining the various physical-mechanical properties of composites. The physical-mechanical properties, such as the modulus of elasticity, compressive and tensile strength in both 293 K and 77 K, adhesion measurements with and without cryo-shock, apparent density, thermal conductivity coefficient, and safety coefficient were measured. The results showed that the addition of fillers did not give a significant improvement of characteristics.

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Laima Vēvere

A Review of Wood Biomass-Based Fatty Acids and Rosin Acids Use in Polymeric Materials

Two approaches for introduction of wheat straw lignin into rigid polyurethane foams

Development of the Approaches for Complex Utilization of Brown Algae (Fucus Vesiculosus) Biomass for the Obtaining of Value-Added Products

Lignin – Derived antioxidants as value-added products obtained under cavitation treatments of the wheat straw processing for sugar production

Polyurethane Foam Composites Reinforced with Renewable Fillers for Cryogenic Insulation

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