6 results
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2. Energy efficiency and renewable energy integration in data centres. Strategies and modelling review.
- Author
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Oró, Eduard, Depoorter, Victor, Garcia, Albert, and Salom, Jaume
- Subjects
- *
RENEWABLE energy sources , *ECONOMIC development , *ENERGY consumption , *FOSSIL fuels , *MATHEMATICAL models , *DATA libraries - Abstract
The continuous growth in size, complexity and energy density of data centres due to the increasing demand for storage, networking and computation has become a worldwide energetic problem. The emergent awareness of the negative impact that the uncontrolled energy consumption has on natural environment, the predicted limitation of fossil fuels production in the upcoming decades and the growing associated costs have strongly influenced the energy systems engineering work in the last decades. Therefore, the implementation of well known and advanced energy efficiency measures to reduce data centres energy demand play an important role not only to a supportable growth but also to reduce its operational costs. The carbon footprint is greatly influenced by the energy sources used. Therefore, there have been recent efforts to exploit and reuse or combine green energy sources in data centres to lower brown energy consumption and CO 2 emissions. This paper presents a comprehensible overview of the current data centre infrastructure and summarizes a number of currently available energy efficiency strategies and renewable energy integration into data centres and its characterization using numerical models. Moreover it would be necessary to develop dynamic models and metrics for properly understand and quantify the energy consumption and the benefits of applying the incoming energy efficiency strategies and renewable energy sources in the data centres. Thus, the researches or investors will be able to compare with reliability the different data centre designs and choose the best option depending on the renewable energy sources and capital available. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
3. Study on the mid-long term electrification level of China.
- Author
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XianDong, Tan, ZhaoGuang, Hu, BaoGuo, Shan, and MinJie, Xu
- Subjects
ELECTRIFICATION ,ENERGY policy ,MATHEMATICAL models ,ENERGY economics ,ECONOMIC development ,ELECTRICITY ,ENERGY consumption - Abstract
Abstract: Electrification level is a significant topic in energy and electric power planning. The paper sets up a LEAP model and designs three scenarios of economic growth of China, and simulates China''s electrification level by 2030. The results show that China''s electrification level has a larger increase potential in the mid-long term and rapid change of economic development pattern can help to increase the electrification level. By 2015, energy used for power generation will account for 43.3% of total primary energy consumption, while the ratio of electricity consumption to total final energy consumption will be about 23.1%; by 2020, the ratio of energy used for power generation to total primary energy consumption will increase to 44.9%, and the ratio of electricity consumption to final energy consumption will be about 25.6%; by 2030, the ratio of energy used for power generation to total primary energy consumption will be up to 47.2%, and the ratio of electricity consumption to total final energy consumption will reach about 28.9%. [Copyright &y& Elsevier]
- Published
- 2012
- Full Text
- View/download PDF
4. China's Energy Demand Scenario Analysis in 2030.
- Author
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Shan, Bao-guo, Xu, Min-jie, Zhu, Fa-gen, and Zhang, Cheng-long
- Subjects
POWER resources ,ENERGY consumption ,MATHEMATICAL models ,ECONOMIC demand ,ECONOMIC development ,ENERGY economics ,CARBON dioxide mitigation - Abstract
Abstract: In order to forecast energy demand in China in the next 20 years, this paper firstly analyzes the current situation of China''s energy consumption, and then apply LEAP model to simulate primary energy and final energy demand in 2020, 2030 under different scenario composition about economic development, energy efficiency and energy structure. The results show that: the total primary energy demand will reach 4840-5070 Mtce in 2020, 5580-5870 Mtce in 2030; the share of coal in primary energy will decrease, and that of oil, natural gas and non-fossil energy sources will increase. For all the three economic growth scenarios, 40-45% carbon emission intensity reduction target can be realized. If non-fossil energy can be further developed, carbon emission intensity can reduce more than 45% by 2020. The goal of the 15% share of non-fuel energy in primary energy is difficult to realize, unless the most development potentials of hydro power, nuclear power and wind power can be reached. [Copyright &y& Elsevier]
- Published
- 2012
- Full Text
- View/download PDF
5. Exploring the relationship between urbanization and energy consumption in China using ARDL (autoregressive distributed lag) and FDM (factor decomposition model)
- Author
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Liu, Yaobin
- Subjects
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ENERGY consumption , *URBANIZATION , *AUTOREGRESSION (Statistics) , *DISTRIBUTED lags (Economics) , *MATHEMATICAL decomposition , *ECONOMIC development , *EMPIRICAL research , *MATHEMATICAL models , *SUSTAINABLE development - Abstract
Abstract: The paper develops a function of energy consumption, population growth, economic growth and urbanization process, and provides fresh empirical evidences for urbanization and energy consumption for China over the period 1978–2008 through the use of ARDL testing approach and factor decomposition model. The results of the bounds test show that there is a stable long run relationship amongst total energy consumption, population, GDP (Gross domestic product) and urbanization level when total energy consumption is the dependent variable in China. The results of the causality test with ECM (error correction model) specification, the short run and long run dynamics of the interested variables are tested, indicating that there exists only a unidirectional Granger causality running from urbanization to total energy consumption both in the long run and in the short run. At present, the contribution share which urbanization drags the energy consumption is smaller than that in the past, and the intensity holds a downward trend. Therefore, together with enhancing energy efficiency, accelerating the urbanization process that can cut reliance on resource and energy dependent industries is a fundamental strategy to solve the sustainable development dilemma between energy consumption and urbanization. [Copyright &y& Elsevier]
- Published
- 2009
- Full Text
- View/download PDF
6. Energy consumption, carbon emissions, and economic growth in China
- Author
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Zhang, Xing-Ping and Cheng, Xiao-Mei
- Subjects
- *
ECONOMIC development , *GRANGER causality test , *ENERGY consumption & the environment , *CARBON dioxide & the environment , *GROSS domestic product , *MULTIVARIATE analysis , *MATHEMATICAL models - Abstract
This paper investigates the existence and direction of Granger causality between economic growth, energy consumption, and carbon emissions in China, applying a multivariate model of economic growth, energy use, carbon emissions, capital and urban population. Empirical results for China over the period 1960–2007 suggest a unidirectional Granger causality running from GDP to energy consumption, and a unidirectional Granger causality running from energy consumption to carbon emissions in the long run. Evidence shows that neither carbon emissions nor energy consumption leads economic growth. Therefore, the government of China can purse conservative energy policy and carbon emissions reduction policy in the long run without impeding economic growth. [Copyright &y& Elsevier]
- Published
- 2009
- Full Text
- View/download PDF
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