Sustainable and secure development of any country is considerably affected by energy efficiency of economy. Efforts directed to diminishing of energy resources consumed have to be directed to achieving multiple goals, ultimately impacting demand in energy resources. Hence, ultimate demand of energy resources depend on economic growth rates, economy structure, technological level, distribution of income and behavioral patterns, both of business companies and households. This paper is devoted to analysis of energy efficiency in transport sector of three secected European countries. The methodology of research is based on comparison on long-term tendencies of energy intensity in transport equipment segment. The long-term forecasting untill year 2050 will be performed by using LEAP (the Long-range Energy Alternatives Planning system) software; ceteris paribus assumption will be selected. The countries selected for analysis are: Belgium, Bulgaria and Lithuania. The selected countries, we assume, would represent better developed Europea countries (represented by e.g. Belgium), and comparitively less developed European countries of different size (represented by Bulgaria and Lithuania). The juxatopsing of energy intensity change in long run, revealing mode of this change and comparison of cases of selected countries, would allow to reveal if energy efficiency of transport equipment converge. Since trnasport equipment sector embraces various modes of transport, additionally public roads sector will be tackled. We believe, that results obtained will signal what policy implications, if any, are necessary in order to direct transport users towards stewardship of energy resources through increase of efficiency of conventional energy resources and transfer to renewables in the nearest future.
Sustainable development of separate regions and countries is affected by array of factors among which energy security plays a cricial role. We claim, that efficient use of energy is very important constutuent of energy security. The first part of the presented paper we wil devote to overview of perception of energy security and revealing waht role energy efficiency plays. Energy efficiency could be estimated by energy intensity indicator, which shows what ammount of energy is used for e.g. one European Euro. This indicator can be calculated for main sectors of economy: various branches of industry, services and agriculture. The higher value added is created in the sector, or, to put it in onother way, the higher activity of sector, the more important that energy in this sector would be used efficiently. In this paper we tackle longterm activity and energy efficiency of agriculture sector in developed and less developed countries.We raise an assumtion that in better developed countries activity of agricultural sector in long-run would diminish, what would be followed by gradular increase in energy intensity; i.e. energy intensity indicator would gradually diminish. Besides, we assume that those tendencies would be slightly different in currently less developed countries; i.e. agricultural sector not necessarely would contract and energy intensity would diminish with higher rates if to juxatopse with better developed countries. In order to verify raised assumptions data of the selected European countries will be used. Better developed countries would be represented by one country – Germany. Less developed European countries would be represented by Bulgaria and Romania. We will forecast activity and energy intensity by using LEAP software. Indicated data for chosen countries will be forecated untill year 2050. Obtained results will indicate if consitent patterns could be traced and respective policy implications formulated.
Increase of energy efficiency remains as one of the major strategic objectives in Lithuania. Effective use of existing energy saving potential increases energy security and reduces emissions of greenhouse gas and other pollutants. In order to meet the growing energy demand and to reduce the negative impact of the energy sector on environment, increase of the role of renewable energy sources in the country’s primary energy balance, as well as larger deployment of energy-efficient and smart technologies in all areas, including military structures, are required. When analysing energy security and energy efficiency, as the two interrelated aspects of the Lithuanian energy policy, assessment of the global energy trends in the world, the EU and neighbouring countries, expected developments in the modern technologies, as well as global aspirations to neutralize the threat of climate change was performed. The paper provides an overview of energy consumption trends in the European Union and Lithuania, energy policy in the NATO alliance, as well the current status of energy consumption in the Lithuanian National Defence System.
There is major concern with Lithuania’s industrial development because its manufacturing structure is increasingly dependent on the consumption of energy. In spite of the Lithuanian energy intensity decrease more than 35 percent in the last decade, the energy required to produce a unit of output in Lithuania twice exceeds the average of the European Union countries.
This paper investigates the energy intensity from a production theoretic framework and uses annual data of 1998-2011 to measure energy intensity in the Lithuanian manufacturing sector. The investigation compares energy intensity in manufacturing across different activities, based on several models. The results of the research show considerable variation in energy intensity across the activities. Based on energy intensity ratio, the Lithuanian manufacturing activities are classified into three categories, such as high energy- intensive, moderate energyintensive and low energy- intensive. The research reveals a strong and negative interrelationship between intensity of energy consumption and manufacturing production. Over a period of 1998-2011, the contribution of high energy-intensive industries to total manufacturing value added was increasing and amounted to 30 percent at the end of 2011. Finally, the research provides insights, that restructuring of the activities from energy intensive industries towards more technologically advanced ones might potentially lead to higher energy efficiency and it could be one of the most important routes to sustainable development.
One of the most important strategic goals in Lithuania is implementation of sustainable development provisions. Taking into consideration closure of Ignalina Nuclear Power Plant implementation of this aim depends very much on development of the Lithuanian energy sector. This paper presents some findings from the analysis of the Lithuanian energy policy and the energy sector development, in particular taking into consideration the role of energy efficiency, renewable energy sources and nuclear energy. The paper focuses on changes in primary energy balance and in deployment of renewable energy sources over the period 2010–2020. The paper also presents analysis of changes in electricity generation taking focus on factors stimulating construction of new regional nuclear power plant in Lithuania and factors limiting its attractiveness.
Presented paper aims to indicate what types of interrelationships between energy usage patterns prevailing in particular country, economic growth and finally, sustainable development could be distinguished. The topic of paper, or, rather research area, is neither new nor original. Nevertheless, an array of approaches towards character of considered interrelationships can be encountered. Complicity of chosen issue, we reckon, lies in differences of perception of the following questions. Our findings consequently would depend on, at first, how we measure economic growth in short and long terms, the second, how we measure energy security, and, the third, how we benchmark progress towards sustainable development. Methods, which we consider as being applicable for measuring of selected interrelationships, comprise a separate part of scientific elaboration. Therefore we formulate a task to overview the most contemporary measurable perceptions of economic growth, perceptions of energy security facets affecting economic growth and consequent reaction of sustainable development to various scenarios of energy consumption and economic growth. Resulting conclusions about measurement of indicated phenomena and argumentations of their plausible interrelation would lead us to choice of methodological approaches of described interrelations’ analysis.