Mr. Novoseltsev has more than 20 years of professional experience working on the implementation of performance improvement and energy efficiency measures in municipal heat and power utilities, industrial enterprises, and in public and residential buildings, particularly through ESCO projects using Energy Management and Energy Performance Contracting (EPC). •He has been an active participant in the creation of Ukraine’s wholesale electricity market. •From 2010-to the present, he has participated in development of: (1) Ukrainian National strategy for the heating sector
Economic model of ESCO cross-border cooperation which combines on the systemic base the models of... more Economic model of ESCO cross-border cooperation which combines on the systemic base the models of Ricardo comparative advantage, performance-contracting and cross-border services exchange are considered. The model allows numeric calculation of ESCO interaction affordable gains by taking into account for each participant the absolute advantage in technologies and productivity of labor, the difference in exchange rates, wage levels and the scope of available manpower. The procedure of ESCO revenue conditions formalization by converting the aggregate of known inequalities to coordinated system of equations with addition of new variables (components), which have the determined economic content of these components in the form of client alternative remuneration, payments for ESCO under performance contract and the client alternative costs are generalized. Previously unknown ratios between the variables that determine the value of ESCO cross-border cooperation economic gain under comparati...
Energy management systems are one of the most powerful and widespread tools for solving problems ... more Energy management systems are one of the most powerful and widespread tools for solving problems of increasing the efficiency of energy use, reducing the energy intensity of production and, as a result, increasing the competitiveness of any country's economy. Among the priority tasks of energy management, one of the key ones is the minimization of the negative consequences of the impact of energy-intensive technological systems on the environment and the satisfaction of consumer demands for the quality of energy supply. This requires the energy management systems of the organization and the procurement of equipment and services for the effective transformation, distribution and use of energy, taking into account economic, energy and environmental (3-E) restrictions. At the same time, tasks related to operational management of energy supply processes for consumers in real time are becoming more and more relevant. For a comprehensive, eco-balanced solution to these problematic tas...
The correct determination of the energy efficiency (EE) of a complex system is a problematic task... more The correct determination of the energy efficiency (EE) of a complex system is a problematic task that requires the use of specialized methods and approaches. Most often, EE is considered as an indicator of the quality-of-service provision, which most fully corresponds to the technical and economic essence of this indicator. The structural and functional organization of the system of such indicators is carried out either on a bottom-up approach or a top-down approach, gradually deploying macroeconomic indicators defined at the system levels. This paper considers the tensor form of organization of the system of such indicators, which allows combining within a single model not only their organizational levels (economy as a whole, economic sectors, enterprises, technologies and equipment), but also the types of activities that reflect these indicators (energy, financial, economic, institutional, environmental, social, etc.), and the factors of changes in energy use (structural, technol...
Carbon dioxide CO2 is a component of air that is responsible for the growing global warning and g... more Carbon dioxide CO2 is a component of air that is responsible for the growing global warning and greenhouse gases emissions. The energy sector is one of the main sources of CO2 emissions in the world and especially in Ukraine. Carbon capture, utilization and storage (CCUS) is a group of technologies that play a significant role along with renewable energy sources, bioenergy and hydrogen to reduce CO2 emissions and to achieve international climate goals. Nowadays there are thirty-five commercial CCUS facilities under operation around the world with a CO2 capture capacity up to 45 million tons annually. Tougher climate targets and increased investment provide new incentives for CCUS technologies to be applied more widely. CCUS are applications in which CO2 is captured from anthropogenic sources (power generation and industrial processes) and stored in deep geological formations without entering atmosphere or used in various products using technologies without chemical modification or w...
Joupnal of New Technologies in Environmental Science, 2020
Today, the scope of energy services markets (ESMs) has expanded worldwide and covered almost all ... more Today, the scope of energy services markets (ESMs) has expanded worldwide and covered almost all areas of production and consumption of goods and services for both industrial and public appointments, as well as households, mainly due to energy efficiency and renewable energy sources. At the same time, the incompleteness of theoretically grounded bases significantly reduces the pace of these markets development. The purpose of this study is to present the framework for the determination of directions and construct a model of structural organization and functional interaction of the ESMs participants. Such approach allows, by combining resources, capabilities and information, to expand the scope and improve the efficiency and productivity of energy services. A new structure-function model of ESMs participants’ interaction has been developed. In addition, a new organizational mechanism is proposed to support the efficient functioning of the ESMs in the form of a cycle of continuous imp...
Ukraine's energy-intensive urban services systems were built in the 1960... more Ukraine's energy-intensive urban services systems were built in the 1960s and 1970s, when the Soviet Union heavily subsidized electrical power and natural gas. With the rise of energy prices to international market levels, these systems are now very expensive to operate. The large majority of Ukrainian water, wastewater, and districting heating utilities are therefore operating at a financial loss. However,
Economic model of ESCO cross-border cooperation which combines on the systemic base the models of... more Economic model of ESCO cross-border cooperation which combines on the systemic base the models of Ricardo comparative advantage, performance-contracting and cross-border services exchange are considered. The model allows numeric calculation of ESCO interaction affordable gains by taking into account for each participant the absolute advantage in technologies and productivity of labor, the difference in exchange rates, wage levels and the scope of available manpower. The procedure of ESCO revenue conditions formalization by converting the aggregate of known inequalities to coordinated system of equations with addition of new variables (components), which have the determined economic content of these components in the form of client alternative remuneration, payments for ESCO under performance contract and the client alternative costs are generalized. Previously unknown ratios between the variables that determine the value of ESCO cross-border cooperation economic gain under comparati...
Energy management systems are one of the most powerful and widespread tools for solving problems ... more Energy management systems are one of the most powerful and widespread tools for solving problems of increasing the efficiency of energy use, reducing the energy intensity of production and, as a result, increasing the competitiveness of any country's economy. Among the priority tasks of energy management, one of the key ones is the minimization of the negative consequences of the impact of energy-intensive technological systems on the environment and the satisfaction of consumer demands for the quality of energy supply. This requires the energy management systems of the organization and the procurement of equipment and services for the effective transformation, distribution and use of energy, taking into account economic, energy and environmental (3-E) restrictions. At the same time, tasks related to operational management of energy supply processes for consumers in real time are becoming more and more relevant. For a comprehensive, eco-balanced solution to these problematic tas...
The correct determination of the energy efficiency (EE) of a complex system is a problematic task... more The correct determination of the energy efficiency (EE) of a complex system is a problematic task that requires the use of specialized methods and approaches. Most often, EE is considered as an indicator of the quality-of-service provision, which most fully corresponds to the technical and economic essence of this indicator. The structural and functional organization of the system of such indicators is carried out either on a bottom-up approach or a top-down approach, gradually deploying macroeconomic indicators defined at the system levels. This paper considers the tensor form of organization of the system of such indicators, which allows combining within a single model not only their organizational levels (economy as a whole, economic sectors, enterprises, technologies and equipment), but also the types of activities that reflect these indicators (energy, financial, economic, institutional, environmental, social, etc.), and the factors of changes in energy use (structural, technol...
Carbon dioxide CO2 is a component of air that is responsible for the growing global warning and g... more Carbon dioxide CO2 is a component of air that is responsible for the growing global warning and greenhouse gases emissions. The energy sector is one of the main sources of CO2 emissions in the world and especially in Ukraine. Carbon capture, utilization and storage (CCUS) is a group of technologies that play a significant role along with renewable energy sources, bioenergy and hydrogen to reduce CO2 emissions and to achieve international climate goals. Nowadays there are thirty-five commercial CCUS facilities under operation around the world with a CO2 capture capacity up to 45 million tons annually. Tougher climate targets and increased investment provide new incentives for CCUS technologies to be applied more widely. CCUS are applications in which CO2 is captured from anthropogenic sources (power generation and industrial processes) and stored in deep geological formations without entering atmosphere or used in various products using technologies without chemical modification or w...
Joupnal of New Technologies in Environmental Science, 2020
Today, the scope of energy services markets (ESMs) has expanded worldwide and covered almost all ... more Today, the scope of energy services markets (ESMs) has expanded worldwide and covered almost all areas of production and consumption of goods and services for both industrial and public appointments, as well as households, mainly due to energy efficiency and renewable energy sources. At the same time, the incompleteness of theoretically grounded bases significantly reduces the pace of these markets development. The purpose of this study is to present the framework for the determination of directions and construct a model of structural organization and functional interaction of the ESMs participants. Such approach allows, by combining resources, capabilities and information, to expand the scope and improve the efficiency and productivity of energy services. A new structure-function model of ESMs participants’ interaction has been developed. In addition, a new organizational mechanism is proposed to support the efficient functioning of the ESMs in the form of a cycle of continuous imp...
Ukraine's energy-intensive urban services systems were built in the 1960... more Ukraine's energy-intensive urban services systems were built in the 1960s and 1970s, when the Soviet Union heavily subsidized electrical power and natural gas. With the rise of energy prices to international market levels, these systems are now very expensive to operate. The large majority of Ukrainian water, wastewater, and districting heating utilities are therefore operating at a financial loss. However,
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Papers by Alexander Novoseltsev