Showing total 11 results

1. Flat plate hybrid photovoltaic- thermal (PV/T) system: A review on design and development.

Author

Das, Dudul, Kalita, Pankaj, and Roy, Omkar

Subjects

*PHOTOVOLTAIC power systems, *GREENHOUSE gases, *CARBON dioxide mitigation, *FOSSIL fuels, *RENEWABLE energy sources, *ENERGY consumption

Abstract

Carbon dioxide emissions from burning fossil fuels are believed to be the main factor for alarming rise in global temperatures. Conference of Parties 21 held at Paris in the year 2015 strictly warned and asked the nations to reduce their greenhouse gas emission level. This makes the nations to adopt renewable energy technology to substitute burning fossil fuels. Solar energy due to its accessibility and affordability leads the renewable energy application race. Even though Photovoltaic (PV) technology is mature but the effect of temperature on its efficiency is considerable, which opens up new front of research where combination of PV and thermal absorber is focussed to harness thermal energy which otherwise negatively affect the PV electrical efficiency. In the proposed study starting from the effect temperature on PV electrical efficiency, construction of Photovoltaic-Thermal (PV/T) module, historical development of PV/T, about different types of PV/T's developed around the globe along with performance of developed PV/T's, effect of operating parameters and methods of thermodynamic management are reviewed and presented. The study emphasised on the use of nano fluid and phase change material to harness maximum thermal energy from the system, also includes an insight into commercially available PV/T modules across the globe. This paper presents enviro-economic evaluation of PV/T systems developed by various researchers and also enumerated thermodynamic methods for evaluating system efficiency, which includes both energy and exergy analysis. This paper also provides the necessary information about the requirement of future research in PV/T. [ABSTRACT FROM AUTHOR]

Published

2018

2. What is better for mitigating carbon emissions – Renewable energy or nuclear energy? A panel data analysis.

Author

Jin, Taeyoung and Kim, Jinsoo

Subjects

*CARBON dioxide mitigation, *RENEWABLE energy sources, *ENERGY consumption, *NUCLEAR energy, *PANEL analysis, *ENERGY economics

Abstract

This paper investigates the determinants of carbon emissions based on energy consumption, analyzing the data of 30 countries using nuclear energy for the period 1990–2014. Renewable energy and nuclear energy consumption are adopted as determinants, and real coal price and real GDP are used as additive variables. The panel cointegration analysis and Granger causality tests are conducted to investigating the relationship among the variables. First, the panel cointegration test results suggest that long-run equilibrium relationship exists among carbon emissions, renewable energy consumption, and nuclear energy consumption. The results of the long-run cointegrating vector and Granger causality tests indicate that nuclear energy does not contribute to carbon reduction unlike renewable energy. Thus, the development and expansion of renewable, not nuclear, energy are essential to prevent global warming. Though there is a concern that rising energy prices caused by the expansion of renewable energy may impact the economy negatively, our empirical results also imply that renewable energy consumption will promote economic growth. In other words, our evidence shows that using and expanding renewable energy is both economically and ecologically beneficial. [ABSTRACT FROM AUTHOR]

Published

2018

3. Carbon emission of global construction sector.

Author

Huang, Lizhen, Krigsvoll, Guri, Johansen, Fred, Liu, Yongping, and Zhang, Xiaoling

Subjects

*CARBON dioxide mitigation, *RENEWABLE energy sources, *ENVIRONMENTAL impact analysis, *ENERGY economics, *ENERGY consumption

Abstract

The construction sector delivers the infrastructure and buildings to the society by consumption large amount of unrenewable energy. Consequently, this consumption causes the large emission of CO 2 . This paper explores and compares the level of CO 2 emission caused by the construction activities globally by using the world environmental input-output table 2009. It analyses CO 2 emission of construction sector in 40 countries, considering 26 kinds of energy use and non-energy use. Results indicate: 1) the total CO 2 emission of the global construction sector was 5.7 billion tons in 2009, contributing 23% of the total CO 2 emissions produced by the global economics activities. 94% of the total CO 2 from the global construction sector are indirect emission. 2) Gasoline, diesel, other petroleum products and light fuel oil are four main energy sources for direct CO 2 emission of global construction sector. The indirect CO 2 emission mainly stems from hard coal, nature gas, and non-energy use. 3) The emerging economies cause nearly 60% of the global construction sector total CO 2 emission. China is the largest contributor. Moreover, the intensities of construction sector’s direct and indirect CO 2 emission in the developing countries are larger than the value in the developed countries. Therefore, promoting the development and use of the low embodied carbon building material and services, the energy efficiency of construction machines, as well as the renewable energy use are identified as three main pivotal opportunities to reduce the carbon emissions of the construction sector. [ABSTRACT FROM AUTHOR]

Published

2018

4. Geographical and environmental perspectives for the sustainable development of renewable energy in urbanizing China.

Author

Bao, Chao and Fang, Chuang-lin

Subjects

*ENVIRONMENTAL impact analysis, *SUSTAINABLE development, *RENEWABLE energy sources, *URBANIZATION, *ENERGY consumption, *CARBON dioxide mitigation, *ENERGY economics

Abstract

Abstract: With rapid urbanization and industrialization, China has become both the largest energy consumer and CO2 emitting country in the world. As a clean and low-carbon energy source, renewable energy is a good choice to substitute for the exhausted fossil energy. The Chinese central and local governments have made a series of policies and optimistic plans to promote a rapid development of renewable energies. China′s renewable energy development has become a key to the sustainable development of socio-economic system. Unlike most of the current studies which mainly identified the challenges regarding policies and technologies around renewable energy or performed specific analyses for a certain kind of renewable energy, this paper summarizes the spatial disparity and consistency among the major renewable energies, coal resources, energy consumption and its major influencing factors in China, and reviews the positive and negative environmental impacts of major renewable energies. Based on the geographical and environmental perspectives, this paper recommends that the Chinese government: constructs the national energy production bases according to the resource distribution; integrates different energies on the basis of their natural features and spatial consistency; adjusts the overall layout of socio-economic development consistent with renewable energies; and promotes a moderate renewable energy development to maximize the environmental benefits. [Copyright &y& Elsevier]

Published

2013

5. The impact of biomass consumption on CO2 emissions: Cointegration analyses with regime shifts

Author

Bilgili, Faik

Subjects

*BIOMASS energy, *ENERGY consumption, *CARBON dioxide mitigation, *COINTEGRATION, *ALTERNATIVE fuels, *RENEWABLE energy sources

Abstract

Abstract: The source of carbon dioxide (CO2) emissions has been of great interest to researcher(s) and/or policy maker(s) within ongoing efforts to diminish the emissions in the world due to CO2''s serious adverse environmental effect. This paper investigates the possible existence of long run relationship between CO2 emissions and biomass consumption in US for the period January 1990–September 2011. To this end, paper first seeks for effect of biomass on CO2 through energy literature and later follows cointegration analyses with structural breaks to reveal parameter estimates of long run equilibrium of CO2 with fossil fuel consumption and biomass consumption. Eventually this paper explores that structural breaks are important to understand the course of CO2 and that, as expected, fossil fuel and biomass effect CO2 positively and negatively, respectively. Alternative cointegration analyses with regime shifts confirm negative impact of biomass and positive impact of fossil fuel on CO2, as well. [Copyright &y& Elsevier]

Published

2012

6. Low emissions development pathways of the Macedonian energy sector.

Author

Dedinec, Aleksandar, Taseska-Gjorgievska, Verica, Markovska, Natasa, Pop-Jordanov, Jordan, Kanevce, Gligor, Goldstein, Gary, Pye, Steve, and Taleski, Rubin

Subjects

*RENEWABLE energy sources, *CARBON dioxide mitigation, *ENERGY consumption, *ENERGY economics, *ENERGY policy

Abstract

In this paper MARKAL integrated energy system model is applied to explore the impacts and opportunities for low emissions energy system development in Macedonia, identifying CO 2 emission reduction policies and the cost of taking action. Two scenarios with different reduction target have been examined: higher ambition scenario where emissions are restricted to 10% above 1990 levels in 2021 and 2.5% in 2030, and moderate ambition scenario where emissions are restricted to 25% above 1990 levels in 2021 and 15% in 2030. In order to provide insights into the optimal timing of emission reductions, both of these cases have also been run under cumulative constraints, that is, rather than having the specified annual targets, there is a carbon “budget” set for 2015–2030 (44 Mt and 26 Mt for higher and moderate ambition cases, respectively), reflecting the same ambition as the above cases but providing flexibility to reduce emissions in the most cost-optimal way. The results show that most of the CO 2 reductions are in the power generation sector, which is not surprising as this tends to be the most carbon intensive sector. The higher ambition case is considerably more expensive than the reference case, with costs 1.9% higher, while the increase under the moderate ambition case is 1%. Under a cumulative constraint, the additional costs are reduced to 1.5% and 0.6% respectively, highlighting the importance of the timing of action. [ABSTRACT FROM AUTHOR]

Published

2016

7. Nonrenewable energy, renewable energy, carbon dioxide emissions and economic growth in China from 1952 to 2012.

Author

Long, Xingle, Naminse, Eric Yaw, Du, Jianguo, and Zhuang, Jincai

Subjects

*RENEWABLE energy sources, *NONRENEWABLE natural resources & economic development, *CARBON dioxide mitigation, *ECONOMIC development, *ENERGY consumption, *GRANGER causality test

Abstract

This paper mainly investigates the relationship among energy consumption, carbon emissions and economic growth in China from 1952 to 2012. First, we implement unit root and cointegration analysis to test the stationary. Furthermore, we analyze the mutual influence among energy consumption, carbon emissions and economic growth through Granger causality analysis. Next, we also conduct static and dynamic regression analysis on the determinants of carbon emissions and economic growth. Last, we predict the future influence of different energy consumption on carbon emissions and economic growth. We find that coal has dominant impact on economic growth and carbon emissions. GDP (Gross Domestic Product) has bi-directional relationship with CO 2 (carbon dioxide) emission, coal, gas, and electricity consumption. It is imperative to change energy consumption structure in China. We had better decrease coal consumption rate. It is significant to develop hydro and nuclear power in China. [ABSTRACT FROM AUTHOR]

Published

2015

8. A comprehensive review on energy efficient CO2 breakthrough technologies for sustainable green iron and steel manufacturing.

Author

Quader, M. Abdul, Ahmed, Shamsuddin, Ghazilla, Raja Ariffin Raja, Ahmed, Shameem, and Dahari, Mahidzal

Subjects

*ENERGY consumption, *CARBON dioxide mitigation, *SUSTAINABLE development, *RENEWABLE energy sources, *ENERGY economics, *STEEL manufacture

Abstract

Iron and steel industry is the largest energy consuming manufacturing sector in the world. It is responsible for emitting 4–5% of the total anthropogenic CO 2 . Due to consistently increasing demand of iron and steel products for human needs, fossil-fuel energy use and CO 2 emission will continue to grow in this industry. So there is a strong motivation to develop and implement energy-efficient and low-carbon technologies as well as carbon reduction programs for this industry. Enhancing the development and deployment of high-temperature waste heat energy recovering technologies along a desired combination of carbon capture and storage (CCS) technologies will be the effective solution to reducing CO 2 emissions from iron and steel production. The aim of this paper is to provide a comprehensive overview of the worldwide carbon reduction programs and new CO 2 breakthrough technologies for energy saving and carbon capture and storage in iron and steel making processes by collating updated information from a wide range of sources. Also, a discussion on the selection of the appropriate technology and their barriers and stages of development and deployment is presented. It is found that lots of factors that limit the role of using biomass in CO 2 abatement, so implementation of CCS technology in coal-based integrated steel plant would be an efficient means for sustainable green iron and steel manufacturing. [ABSTRACT FROM AUTHOR]

Published

2015

9. An overview of renewable electric power capacity and progress in new technologies in the world.

Author

Bilgili, Mehmet, Ozbek, Arif, Sahin, Besir, and Kahraman, Ali

Subjects

*RENEWABLE energy sources, *TRACE gases, *CARBON dioxide mitigation, *ENERGY consumption, *ENERGY storage

Abstract

In recent years, the atmosphere has been exposed to a substantial increase in concentration of the trace gases. In 2012, energy-related CO 2 emissions reached a record of 31.6 gigatonnes which corresponds to 1.4% comparing to 2011. According to the International Energy Agency (IEA), an energy revolution is needed to achieve a 50% reduction of global CO 2 emissions relative to current levels by 2050. In this revolution, energy efficiency, energy storage, new transport technologies, nuclear energy and CO 2 capture and storage should play a crucial role. Furthermore, renewable energy technologies comprise a large potential for emission reductions which takes second place after energy efficiency improvements. Until 2035, renewable energy will also have greater impact than other potential alternatives including both CO 2 capture and storage or nuclear energy. For this reason, renewable energy industries, markets, and policy frameworks are developed rapidly in recent years, and they will play a substantial role in the world׳s future. This paper presents an overview of renewable electric power capacity worldwide and discusses the current status, technologies, industry and recent developments of renewable energy sources (RESs) in detail. In addition, the top countries in terms of total installed renewable electric power capacity are also identified. [ABSTRACT FROM AUTHOR]

Published

2015

10. Renewable energy consumption – Economic growth nexus for China.

Author

Lin, Boqiang and Moubarak, Mohamed

Subjects

*RENEWABLE energy sources, *ENERGY consumption, *ECONOMIC development, *GRANGER causality test, *CARBON dioxide mitigation, *ECONOMIC sectors

Abstract

The aim of this paper is to investigate the relationship between renewable energy consumption and economic growth in China for the period 1977–2011. Autoregressive Distributed Lag approach (ARDL) to cointegration and Johansen cointegration techniques are employed by including intermittent variables namely carbon dioxide emissions and labor. We also employed Granger causality test in order to determine the direction of the causality among the variables. The results show that there is a bi-directional long term causality between renewable energy consumption and economic growth. This finding implies that growing economy in China is propitious for the development of renewable energy sector which in turn helps to boost economic growth. We also find that labor influences renewable energy consumption in the short term. However, there is no evidence of long or short run causality between carbon emissions and renewable energy consumption. This implies that actual level of renewable energy in China is still insignificant and not considerably exploited in order to contribute to the mitigation of carbon dioxide emissions. [ABSTRACT FROM AUTHOR]

Published

2014

11. The role of China's renewable powers against climate change during the 12th Five-Year and until 2020.

Author

Yu, Xiao and Qu, Hang

Subjects

*RENEWABLE energy sources, *CLIMATE change, *CARBON dioxide mitigation, *ENERGY consumption, *LABOR incentives, *ELECTRICITY

Abstract

Abstract: Climate change has become the most globally concerned environmental issue. As the world's largest carbon dioxide emitter and primary energy consumer, China has strong incentives to change its coal-dominated electricity structure. Various renewable powers such as wind and solar are suitable and necessary options for carbon emission reduction. The 12th Five-Year (2011–2015) and the mid-term until 2020 are critical periods for the development of Chinese renewable powers. In this paper individual renewable electricity sources were introduced based on their characteristics. Based on the introduction, the targets as well as their effects in the medium and long-term were presented and explained; challenges China has to face in the periods were discussed in detail, and emphasis was put on hydro, solar and wind power, which is highlighted in the plans. Also solutions against these challenges were recommended. [Copyright &y& Elsevier]

Published

2013