Beata Zdybel scite author profile

Pasta production is a good opportunity for product innovation in different forms. The aim of this work was to assess the use of flaxseed components for pasta production. We examined the chemical composition and cooking quality, at different contents of flaxseed flour (FF) and flaxseed cake (FC), added for pasta processing. The analysis showed that the addition of flaxseed components to the dough caused a substantial difference in the International Commission on Illumination color model (CIE) parameter, compared to control samples. The samples of pasta with FF and FC were darker, redder, and less yellow than the control. The minimum cooking time for the enriched pasta was longer than that for the control pasta, although cooking losses were lower. The increasing content of flaxseed components did not significantly change the weight and volume increase index. The enrichment of pasta with 23% FF and 17% FC yielded good quality pasta. The results of the chemical composition of the flaxseed-enriched pasta indicate considerably enhanced nutritional quality, particularly the levels of protein, fat, and dietary fiber of the pasta, without affecting its quality. Moreover, flaxseed cake can be an important source of nutritional ingredients for pasta production, although it is a by-product of the oil cold pressing technology.

show abstract

Use of a waste product from the pressing of chia seed oil in wheat and gluten‐free bread processing

Zdybel

Różyło

Sagan

2019

J Food Process Preserv

View full text Add to dashboard Cite

The aim of the paper was to evaluate the effect of a waste product from the pressing of chia seed oil on wheat and gluten‐free bread baking. The bread quality (pH, volume, color, texture, and sensory properties), polyphenol content, and antioxidant activity were determined. Chia seeds and chia seed waste, which have fat contents of 6 and 15%, respectively, were added at a level of 5%. The addition of the chia waste and seeds to the wheat bread was found to increase the bread volume with no deterioration in its sensory qualities. Higher sensory quality was obtained for gluten‐free bread prepared with chia seeds and waste. These materials resulted in a darkening of the crumb of the wheat and gluten‐free breads. The contents of polyphenols and antioxidant activities were higher in the breads supplemented with the chia waste and seeds than in the control sample in the cases of both the wheat and gluten‐free breads. Practical applications Similar to whole seeds, a waste product from chia seed oil pressing can also be used in the production of wheat and gluten‐free bread. The bread crumb hardness is one of the most frequently determined parameters in the evaluation of bread texture. It was observed that, compared with the control, the addition of the ground chia seeds and waste resulted in a statistically significant reduction in the hardness of the wheat and gluten‐free breads. Chia seed waste, that is, a by‐product of oil pressing, can be regarded as a valuable technological additive in bakery products, and this material will increase the assortment and enhance the attractiveness of wheat and gluten‐free breads. As a source of polyphenols, this waste from chia seeds can be a valuable functional food additive.

show abstract

Compaction Process as a Concept of Press-Cake Production from Organic Waste

et al. 2020

View full text Add to dashboard Cite

As a result of agri-food production large amounts of organic waste are created in the form of press cakes. Until now, they were mainly used as animal fodder and also utilized for biofuels production. No other way usage has been found yet. A large quantity of these by-products is usually discarded in open areas, which leads to potentially serious environmental problems. The rich chemical composition of these waste products makes it possible to use them for producing other food products valuable for consumers. Based on the test results obtained, it can be stated that moisture content of press cakes is varied and depends on the input material. However, appropriately composed mixtures of various waste products and a properly conducted compaction process allows for obtaining a new product with functional properties. In addition, application of honey powder and starch tablet coating creates a product of resistant to compression and cutting. Results seem to have commercial importance, as they demonstrate that properly processed by-products can be used in food preparations as dietary supplements.

show abstract

Energy Parameters of Miscanthus Biomass Pellets Supplemented with Copra Meal in Terms of Energy Consumption during the Pressure Agglomeration Process

et al. 2021

View full text Add to dashboard Cite

The process of pelleting miscanthus biomass often encounters issues related to the low durability of the obtained pellets and high energy inputs. To solve these issues, the use of copra meal as a supplement is proposed. This paper presents the results of research on energy parameters of miscanthus biomass pellets supplemented with copra meal in terms of energy consumption in the pressure agglomeration process. As part of this research, the energy parameters of miscanthus biomass, copra meal biomass, and their blends were characterized. Next, the raw materials were used for the production of pellets in the pressure agglomeration process. The investigations included proximate and ultimate analysis and estimation of heating values. Moreover, the total fat content, mechanical durability, kinetic strength, and bulk density were determined, and the energy consumption in the pelleting process was assessed. The results indicate that the energy consumption in the miscanthus biomass pelleting process can be substantially reduced by adding copra meal as a biocomponent. When the copra meal addition did not exceed 30%, the pellets exhibited over 95% durability, over 1200 kg∙m−3 density, and over 417 kg∙m−3 bulk density. Given the 44% reduction in energy consumption in the pellet production process and the energy efficiency of 4815 Wh·kg−1 determined in this study, copra meal may be an interesting material for use as an additive in the production of miscanthus biomass pellets.

show abstract

Sunflower seed cake as a source of nutrients in gluten-free bread

Blicharz-Kania

Pecyna

Zdybel

et al. 2023

Sci Rep

View full text Add to dashboard Cite

An increase in the demand for cold-pressed vegetable oils can be observed, e.g. from sunflower. The press cake formed during sunflower oil production can also be an important source of protein, carbohydrates, and phenolic compounds. The aim of the study was to examine the quality of gluten-free breads fortified with sunflower seed cake. The fortified products were characterized by lower moisture content (49.35–48.87%). The bake loss parameter decreased after the use of the highest 15% dose of the sunflower cake. The addition of the sunflower cake caused an increase in the content of nutrients, compared to the control sample: protein (7.44–9.69%d.b.), fat (3.41–10.72%d.b.), crude fiber (1.23–2.34%d.b.), polyphenols (89.3–222.3 mg·100 gd.b.−1), and soluble sugars (2.42–2.73%d.b.). The gluten-free breads with the sunflower seed cake exhibited lower hardness, springiness, and chewiness but higher cohesiveness. The use of the additive contributed to the darkening of the gluten-free bread crumb. The appearance, consistency, aroma, and palatability of the sunflower cake-fortified gluten-free bread were found to be much more attractive than the parameters of the unmodified bread. The conducted research has shown that, thanks to sunflower cake addition, it is possible to obtain a highly nutritious product with desirable sensory quality.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Beata Zdybel

Flaxseed Enriched Pasta—Chemical Composition and Cooking Quality

Use of a waste product from the pressing of chia seed oil in wheat and gluten‐free bread processing

Compaction Process as a Concept of Press-Cake Production from Organic Waste

Energy Parameters of Miscanthus Biomass Pellets Supplemented with Copra Meal in Terms of Energy Consumption during the Pressure Agglomeration Process

Sunflower seed cake as a source of nutrients in gluten-free bread

Contact Info

Product

Resources

About