Journal content No10 (october) 2024 y.

Design of ecosystem for modern water purification modules

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. Design of ecosystem for modern water purification modules//Science online: International Scientific e-zine - 2024. - №10. - https://nauka-online.com/en/publications/technical-sciences/2024/10/02-31/

Annotation: Introduction. The article explores conceptual approaches to building a system for accounting and analyzing costs associated with the design of modern water treatment module ecosystems. Contemporary environmental challenges require the implementation of innovative technologies that enhance water purification efficiency and promote sustainable development. The focus is on the development and improvement of module systems that ensure maximum water treatment process efficiency, cost minimization, and harmonious integration into the overall ecosystem of the enterprise. Current environmental conditions and increasing water quality demands make the water treatment technology market one of the most critical sectors for the global economy. Globalization in this sphere and the development of a competitive environment compel businesses to seek new approaches to designing and implementing water treatment systems. This drives the need for innovative solutions that combine environmental safety, economic efficiency, and long-term operational sustainability. Objective. The objective of this study is to reveal conceptual approaches to the design of modern water treatment module ecosystems, analyze their efficiency, and their implementation in enterprises. The study also addresses the systematization of costs associated with module implementation and their integration into the overall environmental management system. Materials and Methods. The study materials include: 1) modern technological solutions and regulatory acts related to water treatment; 2) scientific works of domestic and foreign authors exploring the design and operation of water treatment systems. The analysis involved methods of theoretical generalization, formalization, and synthesis to build a functional scheme for modular water treatment systems within the enterprise ecosystem. Results. The article reveals the sequence of designing the water treatment module ecosystem that ensures the effective operation of an enterprise under modern conditions. Key components of the water treatment system and their role in the overall cost structure of the enterprise are presented. A typology of costs associated with the implementation of water treatment modules is also proposed, and their place in the management and accounting systems is defined. Prospects. Further research may focus on developing methodologies for analyzing the operational costs of water treatment modules, as well as their documentation in accounting.

Electromagnetic resonance spectroscopy in medicine. Techniques and technologies for applying principles and methods of electromagnetic resonance spectroscopy in medicine

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Bibliographic description of the article for the citation:

. Electromagnetic resonance spectroscopy in medicine. Techniques and technologies for applying principles and methods of electromagnetic resonance spectroscopy in medicine//Science online: International Scientific e-zine - 2024. - №10. - https://nauka-online.com/en/publications/medicine/2024/10/01-36/

Annotation: This article presents the latest devices and technologies that utilize the principles of nanoscale metrological technology, which are in demand in semiconductor manufacturing. This technology has been extensively tested and is fully patented, with high potential for licensing. The main objective of the project is to create a mobile medical device based on modern nanoscale metrological principles and achievements in spectral-optical technologies that provide operational impact on the body with 100% monitoring of its condition during the intervention. The combination of operational spectral-optical influence with magnetic resonance control of the body’s condition in real time ensures a stable, safe, and effective process for restoring vital parameters. Introduction. After thoroughly reviewing the works of renowned innovative specialist Antonina Kuzhim, experts from our university have investigated various structural projects related to the formation and modernization of the ecosystem and infrastructure of the physician's "smart cabinet." Considering the prospects for the development of technologies for the "smart cabinet," the experts find it appropriate to implement methods and techniques of innovative design, as presented in Antonina Kuzhim's publications, into the educational programs of medical universities. The advantage of the proposed technology is the accuracy of monitoring all process parameters, which ensures satisfactory treatment results without damaging tissues, guaranteeing complete safety. The author of this publication, based on Antonina Kuzhim's developments, proposes several projects, each of which, due to the characteristics of the technology, can significantly improve medical technologies and their implementation methods. Techniques and Technology for Non-contact Monitoring and Evaluation of Blood Condition: In this project, the foundation of the technology is the phenomenon of sensitivity of the magnetic resonance sensor to changes in the nature of the fluid. The methodology has been tested in studies where a comparative assessment of water condition was conducted after introducing pre-weighed elements. The sensor adequately responded to microscopic changes in composition and identified the nature of the changes in the mixture. The sensor is in the form of a ring-shaped solenoid, within which a measuring finger is placed. Preliminary statistical information about the blood composition response, corresponding to the standard and considering individual characteristics of the person undergoing testing, is inputted into the sensor's processor. In the event of the sensor signal matching the reference signal, a green LED lights up on the display, indicating that the blood condition is normal. If a deviation from the norm is detected, for example, due to the introduction of 0.000001 g of table salt, a red LED flashes, signaling changes in the blood composition and the need for laboratory analysis.

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