This paper focuses on increasing quantities of digestate, a final product of anaerobic digestion, in biogas stations being built as alternative sources of energy. The potential use of digestate is limited due to its rather specific physical properties. This paper presents current approaches to digestate and digestate management. The objective is to compare the properties of digestate and the products of its separation via centrifuging, i.e. the liquid phase known as digestate liquor, and the solid phase referred to as digestate fibre. Its focus is mainly laid on techniques for dewatering digestate in low-solid anaerobic processes only, which have been tested for the effectiveness of the basic physical and chemical methods including their combinations. The measured results show that the use of coagulants and flocculants for this purpose would be very problematic in practice with regard to their high consumption as well as the need to input other elements into the process. AbstraktPředložený článek se zabývá problematikou narůstajícího množství digestátu jako konečného produktu anaerobní digesce v bioplynových stanicích, budovaných jako alternativní zdroje energie. Digestát má v současné době omezené využití, které je dáno jeho specifickými fyzikálními vlastnostmi, zejména extrémně problematickou separací jednotlivých složek, ale také chemickým a mikrobiologickým složením. Jeho vlastnosti jsou z největší části ovlivněny druhem zpracovávané biomasy. V úvodní části tato studie předkládá současné možnosti nakládání s digestátem. Předmětem experimentální části je popis odběru a analýzy vzorků digestátu včetně jeho zpracování v laboratorních podmínkách použitím odstředění a následné posouzení vlastností digestátu a produktů separace, tj. fugátu a separátu a dále testování koagulačních a flokulačních činidel pro účinnější separaci tuhé fáze z digestátu, resp. fugátu. Použití koagulantů a flokulantů pro tyto účely v praxi by bylo značně problematické s ohledem na jejich vysokou spotřebu a vnos dalších prvků do procesu.
A number of articles have already been published on energy recovery from the sun using solar panels and their environmental impacts. However, in this article, we assess the impact of solar panel technology, and use separately obtained data based on the disassembly of a specific photovoltaic panel into discrete parts. The aim of this article is to list all the environmental impacts of this panel per unit of energy produced and at the same time to focus primarily on deciphering the energy intensity of individual phases of the life cycle of photovoltaic panel production. An analytical method of Life-cycle assessment using the environmental software version SimaPro 9.0.049 with an integrated Ecoinvent 3 database was used to determine the environmental impacts. Throughout the work, we focus on the data obtained, which shows that the process of photovoltaic panel production itself is very energy-intensive, especially in the phase of photovoltaic cell production and solar glass production. In other phases, which is the production of individual parts of the photovoltaic panel, its use, and subsequent recycling, they do not contribute so much to the overall energy balance. In the environmental impact assessment, the most affected aspects were human health, followed by climatic change, resources, and the ecosystem quality came last. In all four of the above categories, the influence of the photovoltaic cell production phase was determined to be dominant.
Abstract. This paper focuses on possibilities of information provision for tourists so that they can get familiar more easily with new cultures and the "unknown" environment by means of commonly known and user friendly interfaces. Each object of interest can be equipped with a wireless identification tag that can serve as: 1) Pointer to already downloaded information and thus associate it with the real object in his proper environment. 2) Link for downloading of information in real time -if a wireless communication is available. 3) Direct provider of such information -if the identification tag has sufficient capacity. 4) Provider for feedback inclusive management of tourist movement so that the communication routes are not overloaded. Information support for such kinds of tourist areas is presented. Logistic model based on Petri nets is used for simulation and life cycle assessment following Ekoindikator 99 is evaluated. Advantages of described solutions are discussed.
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.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.