Showing total 2,180 results

51. EDITORIAL

Author

Boehmer-Christiansen, Sonja

Published

2010

52. Exploring Energy Efficiency in Historical Urban Fabrics for Energy-Conscious Planning of New Urban Developments.

Author

Akbari, Pardis and Bafarasat, Abbas Ziafati

Subjects

URBAN planning, ENERGY consumption, CLIMATE change, URBAN policy, URBAN research

Abstract

The global rise in urban energy demand poses severe environmental and economic health challenges. We need adaptive policies in urban planning to reduce the need for urban energy. This has become a prominent agenda in urban planning, encompassing social (education and innovation in consumption), economic (real pricing), and physical (urban morphology) aspects. This research aims to investigate the influential role of urban form, particularly the physical environment, on energy performance. The methodological approach is centered on conducting analytical-comparative research to examine how urban form influences theoretical energy requirements. Yazd City is selected as a case study because of its distinctive features and traditional approaches to urban sustainability, which have been largely overlooked in previous energy consumption investigations. In a broader comparative context, five tissue types (morphological units) have been selected from Rome, Barcelona, Madrid, and Venice and used as the analytical basis of the study. The research categorizes urban forms into three levels: macro (fabric), medium (block), and micro (building patterns). Heating, cooling, and total energy consumption were computed at each level. The findings indicate that, at the macroscale, the Barcelona fabric offers the highest potential for adaptation in the hot, dry climate of Yazd City. Moreover, the paper analyzes the most recurring morphological indices in the tissues and proposes guidelines for new developments tailored to Yazd City's unique climatic conditions. By focusing on urban form's impact on energy performance, this research contributes to the broader understanding of sustainable urban planning. It offers valuable insights for energy-sensitive urban development in other contexts facing similar climate challenges. [ABSTRACT FROM AUTHOR]

Published

2024

53. Adoption of energy-efficiency measures by Australian low-income households.

Author

Azimi, Samaneh, Hon, Carol K. H., Tyvimaa, Tanja, and Skitmore, Martin

Subjects

GREENHOUSE gas mitigation, HOUSEHOLDS, GREENHOUSE gases, ENERGY consumption

Abstract

Increasing the adoption of energy-efficiency measures (EEM) by households is one of the practical strategies to increase energy efficiency and reduce greenhouse gas emissions. For the 3.24 million low-income households in Australia, partly due to their potentially disproportionately large waste of usable energy, there is a gap between the potential for energy efficiency through existing EEM and the actual energy-efficiency level. Many measures increase energy efficiency in buildings; however, barriers persist for such households to adopt these measures, of which limited research has yet to be conducted. In response, this study examines the relationships involved by a questionnaire survey of 212 low-income households in Australia, showing that financial barriers have the greatest influence followed by split incentive barriers, with the provision of information having no significant role to play. This paper contributes to filling the gap of limited energy-efficiency research involving low-income households, revealing the effect of energy-efficiency barriers on their adoption of EEM. [ABSTRACT FROM AUTHOR]

Published

2024

54. Sustainable transition of the Republic of Serbia: measuring capacity for circularity in agriculture and rural areas.

Author

Vukelić, Igor, Milošević, Srđan, Đurđević, Diona, Racić, Gordana, and Tot, Vilmoš

Subjects

RURAL geography, AGRICULTURAL pollution, RURAL development, DELPHI method, ENERGY consumption

Abstract

Background: The Republic of Serbia (RS) is strategically oriented towards sustainable development, but the implementation thereof faces different limitations and problems. RS emits substantial pollution caused by fossil fuels, and pollution from agricultural sector characterized by inefficient use of energy and intensive use of fertilizers. Bearing in mind the significant agricultural capacities and the orientation towards rural development, a special green transformation must be implemented in this domain. Taking into account the specificities and tradition, the introduction of the circularity concept can be considered the most acceptable. Research on readiness for transition to circularity in RS rural areas has not been conducted; therefore, the goal of the paper is to develop a concept for assessing the capacity of rural areas for circularity. This study is the first scientific proposal that aims to provide input for policymakers, thus contributing to the creation of a new identity of RS, whose development is based on the principles of sustainability. Methods: The study was conducted as conceptual research, with the objective of examining an undiscovered phenomenon without empirical evidence and incorporating the targeted phenomenon into a conceptual framework, while providing a proposal for a solution model based on an interdisciplinary approach—the application of qualitative and quantitative methods (aggregation of composite indicators and Delphi method). Results: Paper results can be summarized as follows: (a) qualitative analysis of policy framework related to RS transition towards circularity (which shows that regulation is insufficient or non-existent, so conceptual research at this stage is necessary and only possible); (b) research questionnaire; (c) original set of indicators for measuring capacity for circularity (derived from the questionnaire); (d) concept of index of capacity of agriculture and rural areas for circularity (based on a set of indicators); and (e) concept of the monitoring of circularity implementation. Conclusions: The main research findings presented in this paper could be beneficial for countries at early stages of introducing circularity, having both low and high agricultural potential. With slight modifications, they can also be applied to other economic activities. [ABSTRACT FROM AUTHOR]

Published

2023

55. Assessing the nexus of gross national expenditure, energy consumption, and information & communications technology toward the sustainable environment: Evidence from advanced economies.

Author

Sarfraz, Muddassar, Naseem, Sobia, and Mohsin, Muhammad

Subjects

ATMOSPHERIC carbon dioxide, CARBON emissions, CLIMATE change, DEVELOPED countries, ENERGY consumption, ECOLOGICAL impact, SUSTAINABILITY, ENVIRONMENTAL protection, ENVIRONMENTAL regulations

Abstract

The quantity of carbon dioxide in the atmosphere rises yearly because human activities emit more of it than the earth's natural processes can absorb. The overall carbon dioxide emissions continue to rise due to development demands. In a panel setting, this paper investigates the link dynamics between gross national spending, energy consumption, information and communications technology, and CO2 emissions in advanced nations from 2000 to 2020. We employ quantitative sequential approaches, such as DOLS, unit root test, and cointegration techniques, to ensure the coherence and feasibility of the study. Both versions of the estimators show statistically significant effects of gross national expenditure, energy consumption, and Information & Communications Technology on CO2 emissions. The findings of this paper show that there is a long‐run relationship between independent and dependent variables. The study also shows that rising exports of ICT services, energy consumption, and population need environmental protection and highlight the necessity for environmental regulations that can minimize emissions throughout the country's expansion. Even in advanced nations, climate vulnerability is not automatically reduced by development status but is instead reduced by the right sort of growth. [ABSTRACT FROM AUTHOR]

Published

2023

56. Life cycle assessment of bacterial cellulose production

Author

Eugénio C. Ferreira, Belmira Neto, Fernando Dourado, André Mota, Ana Forte, and Miguel Gama

Subjects

0106 biological sciences, food.ingredient, business.product_category, 02 engineering and technology, Raw material, 7. Clean energy, 01 natural sciences, 12. Responsible consumption, Bacterial cellulose, food, Water consumption, Dry weight, 010608 biotechnology, Climate change, Environmental impact assessment, Life-cycle assessment, General Environmental Science, Science & Technology, LCA, 021001 nanoscience & nanotechnology, Pulp and paper industry, 6. Clean water, Carton, Corn syrup, Energy consumption, 13. Climate action, ReCiPe 2016, Environmental science, Fermentation, Ecotoxicity, 0210 nano-technology, business

Abstract

Bacterial cellulose (BC), obtained by fermentation, is an innovative and promising material with a broad spectrum of potential applications. Despite the increasing efforts towards its industrialization, a deeper understanding of the environmental impact related to the BC production process is still required. This work aimed at quantifying the environmental, health, and resource depletion impacts related to a production of BC. An attributional life cycle assessment (LCA) was applied to a process design of production of BC, by static culture, following a cradle-to-gate approach. The LCA was modeled with GaBi Pro Software using the ReCiPe 2016 (H) methodology with environmental impact indicators at midpoint level. The functional unit was defined as 1 kg of BC (dry mass), in 138.8 kg of water. From the total used resources (38.9 ton/kg of BC), water is the main one (36.1 ton/kg of BC), most of which (98%) is returned to fresh waters after treatment. The production of raw materials consumed 17.8 ton of water/kg of BC, 13.8 ton/kg of BC of which was for the production of carton packaging, culture medium raw materials, and sodium hydroxide (for the washing of BC). The remaining consumed water was mainly for the fermentation (3.9 ton/kg) and downstream process (7.7 ton/kg). From the identified potential environmental impacts, the production of raw materials had the highest impact, mainly on “Climate change”, “Fossil depletion”, “Human toxicity, non-cancer”, and “Terrestrial toxicity”. The sodium dihydrogen phosphate production, used in the culture medium, showed the highest environmental impacts in “Human toxicity, non-cancer” and “Terrestrial ecotoxicity”, followed by corn syrup and carton production. The static culture fermentation and downstream process showed impact in “Climate change” and “Fossil depletion”. Per se, the BC production process had a small contribution to the consumption of resources and environmental impact of the BC global life cycle.

Published

2021

57. Analysis of Ore Variability Influence on Comminution Energy Efficiency.

Author

Selepe, Mpho and Amadi-Echendu, Joe

Subjects

SIZE reduction of materials, ENERGY consumption, CLIMATE change, CARBON dioxide, DATA analysis

Abstract

Given the increasing concerns about the adverse effects attributable to climate change, two imperatives of the sustainability paradigm are to reduce pollution and CO2 footprint, especially in the energy-intensive mining, mineral processing and beneficiation sectors of industry. Thus, a major challenge in minerals processing is to optimize the energy consumption of unit operations. In principle, this requires the utilization of all data and information that fully characterize the dynamics of all material and physical elements which constitute the organization that operates an ore crushing and screening process. By analyzing available data and information, this paper highlights how the variability in ore quality influences the energy of crushing and screening operations in a case study comminution facility. The empirical findings reinforce the need to apply robust models based on implementation of 4IR technologies to provide better information for decision making; in this case, towards continuous optimization of energy consumption to lower pollution and the CO2 footprint of comminution unit operations. [ABSTRACT FROM AUTHOR]

Published

2023

58. Lime thermal plasters and energy efficiency in traditional buildings : Ancient materials combined to optimise building performance.

Author

Crosson, Niall

Subjects

*BUILDING performance, *ENERGY consumption, *INDOOR air quality, *PLASTER, *CARBON emissions, *RETROFITTING, *NATURAL ventilation, *COMMERCIAL buildings

Abstract

Traditional buildings have a central role to play in Europe's plans to be the first climate-neutral continent by 2050, with the building sector being the single largest energy consumer in the EU with 40 per cent of total energy use. Seventy-five per cent of the existing housing stock is energy inefficient with minute numbers renovated each year. Existing buildings offer huge potential for energy use reduction. Research has shown that a historic retrofit can emit less carbon compared to demolishment and rebuilding. Reductions in carbon emissions of up to 62 per cent were observed across a body of case studies by Historic England, including a 95 per cent reduction in the mews case study described in this paper. Moreover, carefully managed thermal retrofits, taking a 'whole house approach', have many benefits, including improved indoor comfort and air quality as well as reduced operational costs. These are factors which are fundamental in ensuring the continued use of historic constructions while improving their standards of preservation and durability. Thermally upgrading traditional building is still a much-debated topic. Inappropriate thermal interventions with unsuitable materials and finishes can have unforeseen consequences, resulting in building damage and a reduction in internal comfort, health and well-being. This paper aims to contribute to this discussion by providing an overview of key considerations when thermally upgrading the walls of traditional buildings while preserving unique characteristics and functionality. Advantages of adopting thermal mortars such as cork lime are put forward, and their potential efficacy is discussed, concluding with a case study focusing on the deep retrofit of a London mews within a conservation area. [ABSTRACT FROM AUTHOR]

Published

2024

59. Threshold Effect of Trade on Climate Change in South Africa.

Author

Mosikari, Teboho J. and Mmelesi, Kesaobaka

Subjects

CLIMATE change models, EXPORT trading companies, ENERGY consumption

Abstract

The relationship between trade and climate change is not a simple linear relationship. In this paper, using the threshold regression model, we estimated the effect of trade on climate change in South Africa. The paper applied the LM test to examine the nonlinear inference approach to test whether nonlinearity existed and if the threshold model was relevant to the study. The results show that when energy use is set as the threshold variable, the relationship between trade and climate change measured as methane is U-shaped. Also, in other models of GHG as climate change indicators, the results show that the effect of trade on climate change is not dynamic. This result supports the idea that high and low trade effects may have different impacts on climate change indicators. It is, therefore, recommended that all exporters in South Africa resort to more innovative environmental mechanisms to reduce the contribution to climate. The suggestion for future studies is to consider exports of different sectors to climate change. This approach will avoid the generalization of exporting firms as the worst emitters. [ABSTRACT FROM AUTHOR]

Published

2024

60. Modeling the Contribution of Energy Consumption to Climate Change: A Panel Cointegration Analysis for Mediterranean Countries.

Author

Dradra, Zohra and Abdennadher, Chokri

Abstract

Energy has certainly played a robust role in economic development. However, the damages it has caused to the environment and climate change are innumerable and difficult to identify. Therefore, the new challenge facing humanity is no longer the rise in energy prices or resources scarcity, but rather the climate crisis. Against this background, our paper aims to analyzing the long-run relationship between the energy sector and climate change phenomena for a panel of 14 Mediterranean countries spanning the period 1990–2019. The analysis was based on different econometric techniques, containing panel unit root tests, panel cointegration tests, and panel regression estimators, i.e., Fully Modified Ordinary Least Squares (FMOLS) and Dynamic Ordinary Least Squares (DOLS) estimators. The different findings revealed that energy consumption and various air quality indicators such as carbon dioxide emissions (CO2) and nitrous oxide emissions (N2O) have contributed to increasing greenhouse gas emissions (GHGs). This empirical investigation suggests that to minimize the spillovers of global warming and climate shift, the energy path in the Mediterranean should be adjusted by the implementation of energy efficiency measures and the advancement of renewable energy sources for reducing carbon emissions in order to preserve the environment for future generations. [ABSTRACT FROM AUTHOR]

Published

2024

61. Influence of Sun Shading Devices on Energy Efficiency, Thermal Comfort and Lighting Comfort in a Warm Semi-Arid Dry Mediterranean Climate.

Author

Pérez-Carramiñana, Carlos, González-Avilés, Ángel Benigno, Castilla, Nuria, and Galiano-Garrigós, Antonio

Subjects

THERMAL comfort, MEDITERRANEAN climate, ENERGY consumption, DAYLIGHT, CLIMATE change, SOLAR radiation

Abstract

The dry Mediterranean climate (BShs) is the European region with the highest number of hours of sunshine per year. The high annual solar radiation makes sun shading devices necessary to comply with current energy efficiency standards. However, these standards do not sufficiently consider their effect on the indoor lighting comfort of buildings. The objective is to qualitatively and quantitatively determine how movable sun shading devices jointly influence the energy efficiency, thermal comfort and lighting comfort of buildings in BShs climate. The scientific novelty of the work consists of demonstrating the limitations of the sun shading systems commonly used in southeastern Spain and determining the optimal technical solution in this climate to simultaneously improve thermal and lighting comfort. This research comparatively studies the influence of various movable sun shading systems on the daylighting and thermal performance of an educational building. This study conducted on-site measurements, user surveys and computer simulations to study how to improve the thermal and lighting performances of the building. This work demonstrates that interior solar shading provides little improvement in thermal comfort and reduces the cooling demand by only 25%. External movable sun shading improves thermal comfort and reduces the cooling demand by more than 60%, but only adjustable blinds or awnings achieve adequate and homogeneous illuminance values as they diffuse daylight. The paper concludes that energy efficiency standards should be modified to ensure adequate lighting comfort in buildings. [ABSTRACT FROM AUTHOR]

Published

2024

62. Organizational level energy conservation and efficiency - a case of public sector organization in Karachi, Pakistan.

Author

Allah, Anqa min, Iqbal, Jamshaid, and Amjad, Shahid

Subjects

ENERGY conservation, RENEWABLE energy sources, ELECTRIC power consumption, ENERGY shortages, ENERGY consumption, PUBLIC sector, EMPLOYEE morale

Abstract

Pakistan is facing chronic energy crises since many years. This paper aims to provide an overview of the current status of energy efficiency and conservation practices at organizational level in Pakistan. The first phase of this study evaluates the trends in electricity consumption in selected buildings over the last six years (2017-2022). Subsequently, a survey was conducted in selected buildings to assess employee morale and knowledge of energy efficiency and conservation. Results show an insignificant change in electricity consumption in selected buildings during the past six year's period indicating a poor culture of energy savings in the selected organization. Despite a constant electricity consumption from 2017 to 2022, a significant fluctuation in average billing amounts was observed. This is possibly due to electricity tariff that has continuously been fluctuating since last few years in Pakistan including Karachi. Study reveals that more than 50% of the employees in selected organization were aware about the importance of energy efficiency and conservation however, they rarely practice the energy saving measures during their routine activities. This is perhaps due to the lack of sense of national stewardship among the employees. It was also found that most of the employees of the selected organization are aware and motivated towards the environmental and climate change concerns related to energy production and its efficient use. However, again a small number of employees were found practicing the energy conservation and efficiency measures. According to this study, companies should encourage staff members to save energy by offering frequent trainings and educational opportunities. Additionally, the organizations ought to think about switching to renewable energy sources. [ABSTRACT FROM AUTHOR]

Published

2024

63. A Systematic Review of Climate Change Implications on Building Energy Consumption: Impacts and Adaptation Measures in Hot Urban Desert Climates.

Author

Kutty, Najeeba Abdulla, Barakat, Dua, Darsaleh, Abeer Othman, and Kim, Young Ki

Subjects

ENERGY consumption of buildings, URBAN climatology, CLIMATE change adaptation, ATMOSPHERIC temperature, BUILDING performance, CLIMATE change

Abstract

The climate change–built environment nexus is complex and intertwined. Recognizing the rising air temperatures and solar radiations owing to climate-induced global warming, it is critical to manage the increased building energy and cooling loads in the Middle East Gulf states' hot desert climates (Bwh). One of the top climate priorities is to promote climate resilience by reducing risks and enhancing adaptation options. This study aims to systematically review the existing literature to document building energy performances in and the associated adaptation measures of the Middle East Gulf states, regarding the implications of climate change. It is accomplished by answering the following questions: 'How well do we understand the effects of climate change on building energy use in hot urban deserts?' and 'What are the most appropriate adaptation strategies to reduce energy use in hot urban deserts?'. Using the Preferred Reporting Items for Systematic review and Meta-Analysis protocols (PRISMA), 17 studies on the influence of present and future weather scenarios on building performance are examined, considering variations in typology, methods, and input variables. Finally, the paper identifies the preferred methods and input variables for modelling building energy performance under predicted climatic changes. Passive design considerations are considered highly effective in mitigating and adapting to climate change implications. Thermal insulation and efficient window glazing are identified as the best-performing strategies, while the use of solar Photovoltaic (PV) is considered efficient in meeting the primary energy demands. The study's findings can assist planners and designers in projecting future climatic influences on the energy usage of existing buildings. [ABSTRACT FROM AUTHOR]

Published

2024

64. Sustainable Telecommunications: Pioneering Energy-Efficient Mobile Networks for a Net Zero Future.

Subjects

TELECOMMUNICATION, 5G networks, TELECOMMUNICATION systems, CLIMATE change, ENERGY consumption

Abstract

The article discusses the challenges and solutions related to sustainable telecommunications and energy-efficient mobile networks. It highlights the work of Ying Xue from The Hong Kong University of Science and Technology, who is developing a novel integration method called lateral aspect ratio trapping (LART) to address communication bottlenecks and enable the integration of electronics and photonics on the same chip. The article also mentions a white paper released by 5G Americas, which explores strategies and technologies for energy-efficient operation of mobile networks and emphasizes the importance of environmental, social, and economic factors in the telecommunications sector. Additionally, the article briefly mentions the growth of the wireless router market driven by factors such as high-speed internet access, remote work and learning, IoT, and technological innovation. [Extracted from the article]

Published

2023

65. Transforming wood energy in Sweden and Chile: Climate change, environmental communication and a critical political ecology of international forestry companies.

Author

Alarcón, Cristián

Subjects

POLITICAL ecology, FUELWOOD, CLIMATE change, FORESTS & forestry, ENERGY consumption

Abstract

Purpose: The purpose of this paper is to critically analyse and problematize the relations between international forestry companies and wood energy in the context of climate change in Chile and Sweden. Design/methodology/approach: Based on interviews, field observations and analysis of documents, case studies of international forestry companies and wood energy in local areas of Chile and Sweden are examined comparatively. A conceptual framework combining political ecology and environmental communication is developed to approach the cases. Findings: The paper finds that the two international forestry companies studied here have widely incorporated the use of wood energy as a renewable and carbon neutral energy strategy for their forestry business. Second, the paper finds that wood energy is used as a way to reproduce forestry development in the two countries, which is contested by NGOs and activists which are today articulating critical approaches to forestry development in the two countries. Third, related to the former finding, the paper finds that the incorporation of wood energy into the forest sector's interests in Chile and Sweden takes place in the context of important social-ecological conflicts related to industrial forestry development. Originality/value: The paper's analytical framework helps to analyse the social-ecological nature of international business and the way they organise material practices and communicative meaning around renewable energy. The paper's findings and analysis shed light on important problematic aspects of the material and symbolic struggles around renewable energy in the context of climate change. The comparative dimension of the analysis has the value to offer a cross-border analysis to improve the understanding of some of the most important aspects of international businesses concerning wood energy today. [ABSTRACT FROM AUTHOR]

Published

2020

66. A Framework towards Resource Integration and Energy Efficiency Auditing with Zero Hazardous Discharge Programme.

Author

Maffini, Andrea, Bonvicini, Giorgio, Venturin, Alessandro, Morando, Marco, Saba, Antonio, and Fabiano, Bruno

Subjects

ENERGY consumption, INTERNATIONAL financial institutions, ENVIRONMENTAL impact analysis, CLIMATE change, GREENHOUSE gas mitigation, CIRCULAR economy

Abstract

Purpose of this paper is to outline a framework for resources and energy efficiency auditing activities and present its application in field studies carried out in Italy and in Eastern Europe, to support Companies and International Financial Institutions (IFIs) in the implementation of actions to improve industrial performances and reduce global environmental impacts. Among environmental considerations, climate change mitigation and adaptation aspects are included, as well as circular economy, pollution prevention and preservation of biodiversity. Within this context, this study focuses on the peculiar case of the textile industry, which is characterized by a significant use of energy and resources, mainly water and chemicals, thus involving the respect of the Zero Discharge of Hazardous Chemicals Programme. The auditing approach is conceived as a step-by step sequence of activities, starting from the Job Assignment from the Client based on specific Terms of Reference, followed by the submission of a data collection questionnaire, tailored to the specific textile industry, site survey with company managers and concluded with the elaboration of the technical report. In order to demonstrate the capability of the approach, the applicative section of this paper will present results in terms of technical and managerial actions to reduce energy and water consumption and GHGs emissions, as well as to control water pollution and waste generation and disposal. [ABSTRACT FROM AUTHOR]

Published

2022

67. Airtightness of a Critical Joint in a Timber-Based Building Affected by the Seasonal Climate Change.

Author

Kysela, Peter, Ponechal, Radoslav, and Michálková, Daniela

Subjects

JOINTS (Engineering), CLIMATE change, SEASONS, ENERGY consumption, HUMIDITY, SUPPLY & demand

Abstract

The airtightness of buildings is an essential topic regarding energy preservation. The development of new and more sophisticated materials and technology approaches is inevitable. Uncontrolled infiltration is undesirable in buildings with lower energy demands with regulated ventilation. Envelope structure, building method, quality, and others are the main factors influencing the airtightness of the building. However, the correlation between airtightness and climatic factors is less known and researched. This paper comprises measurements of a critical timber-house corner in climatic chambers. It captures the correlation between airtightness and gradual temperature and relative humidity adjustments, simulated from the exterior side. The initial timber moisture content was 12%, and during the experiment it increased with the exterior conditions to 18%. Afterward, we simulated conditions causing a humidity decrease while measuring airtightness. The drying process caused a decrement in airtightness by 18%. In addition to this experiment, this paper also analyses two methods of an airtight membrane connection—constricting or taping the contact. The discrepancy between those two methods was more than 21% in favor of tape. [ABSTRACT FROM AUTHOR]

Published

2023

68. Urban Strategies for Mitigation or Adaptation to Climate Change: What Criteria for Choice?

Author

CÖMERT BAECHLER, Nazan

Subjects

CLIMATE change, DECISION making, URBAN planning, ENERGY consumption, CARBON offsetting

Abstract

Strategies to combat climate change may be based on mitigation of the phenomenon or on adaptation to its consequences. This paper aims to identify the driving factors of the choice between these two categories of strategies in the context of urban climate plans. The fight against climate change being characterized by a logic of free riding, the situation tilts the balance towards adaptation strategies in an urban context, to the detriment of mitigation. This hypothesis is tested here through a review of the existing literature on urban climate strategies. This study shows that, counterintuitively, mitigation prevails over adaptation in urban climate strategies up to now. This paper explores the explanations for this seemingly paradoxical situation. We argue that a big part of the explanation has to do with the institutional context of urban climate strategies, specifically the decision-making capacities of municipalities, or the fact that they take part in international networks promoting mitigation over adaptation. Other explanations rely on the cost/benefit impact of adopting mitigation or adaptation, like the collateral local/private benefits of urban climate strategies that are often bigger with mitigation than adaptation. Another finding is that there is no systematic planning making it compulsory to choose between mitigation and adaptation strategies, as they are in some instances complementary, providing co-benefits. [ABSTRACT FROM AUTHOR]

Published

2023

69. How to improve total factor energy efficiency under climate change: does export sophistication matter?

Author

Liu, Jianmin, Xue, Yan, Mao, Zehong, Irfan, Muhammad, and Wu, Haitao

Subjects

ENERGY consumption, FIXED effects model, IMPULSE response, ENERGY shortages, FOREIGN trade promotion, CLIMATE change

Abstract

Climate change has a profound impact on human survival and development. Climate change is an energy and economic issue, which should be driven by technology. Total factor energy efficiency (TFEE) improvement is undoubtedly a breakthrough in solving energy problems. In this paper, the fixed effect model, impulse response function, and threshold regression model are used to test the complex relationship between export sophistication and TFEE. The results reveal that export sophistication improvement leads to higher TFEE. The impulse response results verify the existence of a phased and positive correlation between export sophistication and TFEE. Finally, the relationship between export sophistication and TFEE significantly varied across different threshold levels of regional corruption score, economic development, and openness. This article led the foundation for supporting China's export sophistication promotion strategy and also provides a reference for energy efficiency improvement and energy crisis response in the post-pandemic era. [ABSTRACT FROM AUTHOR]

Published

2023

70. The influence of climate change on the allocation efficiency of new and tradition energy.

Author

Huang, Kuei-Ying, Chiu, Yung-ho, Chang, Tzu-Han, and Lin, Tai-Yu

Subjects

RAINSTORMS, CLIMATE change, EXTREME weather, CARBON dioxide, POWER resources, ENERGY consumption

Abstract

The purpose of this paper is to strengthen research concerning the impact of climate change on China's water resources, in order to avoid extreme weather events such as regional rainstorms and floods affecting the stable supply of energy and electricity. The goal is to reorganize energy industry allocation to make China's energy the most efficient, which would thus help achieve sustainable development goals. The biggest contribution and of this paper is not only to enlarge the scale and take into account the sustainable aspects, but also to consider climate change factors that have been ignored in the past as exogenous variables. For the first time, we take stock of the optimal allocation of new and tradition energy sources and carbon dioxide. This study uses the Dynamic ZSG-DDF model with exogenous variables and undesirable outputs to find a way to redistribute carbon dioxide, new energy, and tradition energy from different provinces on the premise of maximizing efficiency, thus achieving the goal of reducing carbon and saving the earth. The research results show that the energy efficiency of tradition energy is higher than that of new energy in various provinces. At the same time, the China government must comprehensively review the quota targets of new energy, tradition energy, and carbon dioxide (CO2) in each province as quickly as possible. Currently, the quotas of various provinces are seriously misplaced, and 26 provinces in total have great room for improvement. [ABSTRACT FROM AUTHOR]

Published

2023

71. Perspectives on Electric Motor Market Transformation for a Net Zero Carbon Economy.

Author

de Almeida, Anibal T., Ferreira, Fernando J. T. E., and Fong, João

Subjects

ELECTRIC power consumption, SUPPLY & demand, ELECTRIC motors, ENERGY consumption, CARBON, CLIMATE change

Abstract

Energy efficiency is one of the most powerful strategies to mitigate the impacts of climate change by reducing energy demand, which in turn reduces the emissions of Green House Gases (GHG), as well as reducing the burden on the supply side renewable generation expansion. Because electric motors systems represent such a large share of the overall electricity consumption (over 50%), large savings potential could be made available by the use of energy-efficient motor systems both in new installations and by accelerating the replacement of old inefficient motors. Since electric motors are very reliable, their lifetime is long (according to recent studies it may exceed 20 years) which translates into a very inefficient existing stock despite worldwide policy efforts. This paper analyzes the current efficiency of the installed stock and the causes for its low efficiency, possible policy options to increase its the efficiency, the role of new technologies and improvements possible by targeting the entire motor system at the time of motor replacement. The paper presents an innovative analysis of the estimated impact of increasing the uptake of high-efficiency motors and motor systems; effective policies could translate into 100 TWh/year in the European Union if additional measures, such as addressing oversizing, proper controls (VSDs) and digitisation, are also implemented. If similar measures were adopted globally, the savings triggered could be at least tenfold reaching over 1000 TWh/year. [ABSTRACT FROM AUTHOR]

Published

2023

72. A System of Improving Energy and Ecological Efficiency, Using the Example of Fuel Oil Combustion in Power Plant Boilers.

Author

Tic, Wilhelm Jan and Guziałowska-Tic, Joanna

Subjects

ENERGY consumption, PETROLEUM as fuel, POWER plants, COMBUSTION, BOILER efficiency, BOILERS, LIQUID fuels, CLIMATE change

Abstract

Most climatic changes are not just the result of human activity, but also of business models that harm the environment. An attempt to attain an ecological balance is an answer to the challenge posed by this situation. The combustion of liquid fuels results in the atmospheric emissions of pollutants, such as nitrogen oxides (NOx), sulfur dioxide and hydrocarbons. To reduce emissions of these pollutants and at the same time attain an ecological balance, specific modifiers are applied. This paper presents an analysis of the energy efficiency and ecological efficiency of fuel oil combustion in power plant boilers based on the results of tests carried out by the present authors, in which a Fe/Mg/Ce modifier was used. The tests were carried out for system capacities ranging from 1 to 5 MW. It was found that savings on fuel, which resulted from the implementation of a system for the control and supervision of power plant operation, were in the range of 4 to 6%, and those resulting from the use of the combustion modifier were from 2 to 4%. Moreover, it was found that the system designed to improve efficiency also provided the extra result of reducing CO2 emission and equivalent emission (SO2, NO2, and particulate matter). [ABSTRACT FROM AUTHOR]

Published

2023

73. Which factors influence the decisions of renewable energy investors? Empirical evidence from OECD and BRICS countries.

Author

Kilinc-Ata, Nurcan and Dolmatov, Ilya A.

Subjects

FIXED effects model, RENEWABLE energy sources, GENERALIZED method of moments, RANDOM effects model, ENERGY consumption

Abstract

The importance of using renewable energy (RE) sources has increased significantly in recent times, especially considering the growing concerns about climate change problems and rising fossil fuel prices, which pose a significant threat to the national economies. Therefore, empirical studies that can be used both domestically and internationally in harmony can be created in line with rising investments in RE. However, there has no more analysis of RE investments from the viewpoint of investors in the literature up to this point, and it is crucial to highlight the best investor practices when deploying RE. This research provides theoretical and empirical support for the factors influencing RE investments; used in this analysis are newly constructed panel data on 34 OECD countries and the 5 BRICS countries that range from 2000 to 2020. Specifically, the generalized moment method (GMM), robustness check, fixed and random effects models, panel unit testing, and other panel regression techniques were employed in the study to analyze the determinants of RE investment. The main findings of this paper suggest that economic growth, RE policy, and R&D expenditures all have a statistically significant and positive relationship with RE capacity. Furthermore, RE investment is inversely relative to energy use, electricity use, and carbon (CO2) emissions. As a result, rigorous governmental or state regulation (policy, R&D) is essential for RE investment. [ABSTRACT FROM AUTHOR]

Published

2023

74. Investigating renewable energy–climate change nexus by aggregate or sectoral renewable energy use?

Author

Akan, Taner

Subjects

RENEWABLE energy sources, ENERGY consumption, CARBON emissions, CLIMATE change mitigation, GREENHOUSE gases

Abstract

Investigating the effect of renewable energy on the drivers of climate change correctly is significant as it is the basic source of climate change mitigation. In the extant literature, its effect on climate change has been estimated predominantly by regressing aggregate rather than sectoral renewable energy use either on aggregate greenhouse gas emissions or the components of greenhouse gases (GHGs) like carbon dioxide emissions. Against this backdrop, the paper investigates if we should estimate the nexus (i) by the causal effects running from aggregate or sectoral renewable energy use to GHG emissions and (ii) by the causal effects running from renewable energy consumption to aggregate GHG emissions or to its components like carbon dioxide (CO2) emissions. To this end, the paper introduces negative and positive (functional) complementarity between sectoral renewable energy consumptions in reducing or increasing GHG emissions, takes 20 OECD countries from 1990 to 2019, and uses augmented and non-augmented auto-regressive distributed lag approach and vector error correction mechanism. The study finds substantial differences among the results coming out of (i) regressing aggregate and sectoral renewable energy consumption on GHG emissions and (ii) regressing renewable energy consumption on aggregate GHG emissions and on CO2 emissions. The paper suggests regressing sectoral rather than aggregate renewable energy consumption on the components of aggregate GHG emissions like CO2 emissions rather than on aggregate GHG emissions to produce workable, specific, and conclusive policy alternatives. [ABSTRACT FROM AUTHOR]

Published

2023

75. Energy Consumption of Beech Timber Drying in Oscillation Climates

Author

Branko Kolin, Goran Milić, Željko Gorišek, and Nebojsa Todorovic

Subjects

020209 energy, Climate change, 02 engineering and technology, Atmospheric sciences, Lower energy, oscillation climates, Drying time, energy consumption, conventional drying, 0202 electrical engineering, electronic engineering, information engineering, Total energy, Beech, 040101 forestry, biology, Oscillation, Forestry, 04 agricultural and veterinary sciences, Energy consumption, wood drying, SD1-669.5, biology.organism_classification, Pulp and paper industry, Equilibrium moisture content, 13. Climate action, beech timber, 0401 agriculture, forestry, and fisheries, Environmental science

Abstract

The infl uence of applying the oscillations of air parameters during conventional drying of beech timber on energy consumption is discussed in the paper. A special drying software was created to enable the input of frequency (in hours) and amplitude (in percents) of oscillations. Altogether 12 drying runs were carried out: three conventional ones and nine by using the same schedule but with oscillations of equilibrium moisture content (EMC), temperature and the combination of these two. The combinations of two amplitudes (10 % or 20 %) and two frequencies (3 or 6 hours) were applied in different test runs. The results indicated that all test runs had energy consumptions proportional to drying time, with an important infl uence of the outside temperature. In runs with oscillations, often climate changes infl uenced to some extent the total energy consumption, especially in runs with short phases (3 hours) and high amplitudes (20 %). Despite frequent climate changes, it can be expected that the usage of oscillations would lead to the same or even lower energy consumption than in conventional beech timber drying, especially when shorter drying time is reached.

Published

2015

76. Optimization of Energy Flow in Urban Micro-grids: A Thermodynamic Analysis-Based Approach.

Author

Wei Pu

Subjects

*WASTE heat, *RENEWABLE energy sources, *SUSTAINABLE urban development, *CLIMATE change, *ENERGY shortages, *ENERGY consumption

Abstract

As the issues of global energy crisis and climate change are becoming increasingly prominent in the world, urban microgrids have received widespread attention as an effective way to improve energy utilization efficiency and reduce environmental pollution. Among them, the cogeneration of heat and power (CHP) system is considered as one of the key technologies to improve the energy efficiency of urban microgrids because it can provide both electricity and heat. However, how to optimize the energy flow scheduling for CHP systems, especially in the context of increasing renewable energy sources, has become a hot topic of current research. Existing studies usually rely on the traditional dualtime-scale scheduling strategies, namely day-ahead scheduling and real-time scheduling, but both have obvious limitations in dealing with the uncertainty and volatility of new energy sources. To address the above problems, this paper proposes a thermodynamic analysis-based scheduling method for optimizing the energy flow in the CHP system of urban microgrids. First, this paper introduces the concepts of rolling schedule and real-time schedule to improve the traditional time-scale scheduling method, so as to enhance the system's adaptability to new energy power fluctuations. Second, for the absorption CHP system, this paper proposes a thermal cycle performance optimization strategy, which significantly improves the utilization efficiency of thermal energy through the cascaded recycling of system waste heat. Through these two innovations, this study not only realizes a more accurate and efficient energy management, but also provides a new strategy for the sustainable development of urban microgrids. [ABSTRACT FROM AUTHOR]

Published

2023

77. Influence of Window Roller Blinds on Energy Consumption in Residential Buildings in Serbia.

Author

Djoković, Jelena M., Nikolić, Ružica R., Bokůvka, Otakar, and Pastorková, Jana

Subjects

DWELLINGS, ENERGY consumption, SOLAR radiation, CLIMATE change

Abstract

Roller blinds are devices that are retracted and wrapped in a box above the window opening and are used to protect against the solar radiation. Those are the wellknown devices with distinct advantages over the fixed external dimming elements. The influence of external blinds on the internal thermal environment in climatic conditions in the Republic of Serbia, the city of Kragujevac, was considered in this research. An external blind was installed in the test room and its influence on the internal temperature was compared with the internal temperature of the room without the blind. Real-time monitoring was carried out in February and August 2023. The results presented in this paper show that the blind reduces the temperature in summer by 3.57ºC and increases it in winter by 1.76ºC. The cooling load can be reduced by about 20%, and the heat load by about 15%. [ABSTRACT FROM AUTHOR]

Published

2023

78. Evaluation of Bio-Oils in Terms of Fuel Properties.

Author

Stelmach, Sławomir, Ignasiak, Karina, Czardybon, Agata, and Bigda, Joanna

Subjects

ALTERNATIVE fuels, ENERGY consumption, RENEWABLE energy sources, CLIMATE change, METHYL formate, DIESEL fuels, LIQUID fuels

Abstract

In response to the global climate challenge and the increasing demand for energy, exploring renewable energy alternatives has become crucial. Bio-oils derived from biomass pyrolysis are emerging as potential replacements for fossil fuel-based liquid fuels. This paper shares findings from the Institute of Energy and Fuel Processing Technology on the quality of crude biomass pyrolysis bio-oil samples. These findings highlight their potential as motor liquid fuels. The article details the results of tests on the physicochemical properties of four distinct bio-oil samples. Additionally, it presents preliminary test results on the hydrodeoxygenation of bio-oils in a batch reactor. The production of homogeneous, stable mixtures using other fuel additives, such as diesel oil, rapeseed methyl ester (RME), and butanol, is also discussed. [ABSTRACT FROM AUTHOR]

Published

2023

79. Novel research methods on the net-zero economy of climate finance in the energy sector.

Author

Bashir, Muhammad Adnan, Dengfeng, Zhao, Khan, Muhammad Imran, Shahzad, Farrukh, and Khalil, Samina

Subjects

ENERGY industries, ENERGY consumption, RESEARCH methodology, BUDGET, CLEAN energy

Abstract

This is a perspective, about the future climate policy of Pakistan, to improve the harvest of Green Climate Funds (GCF). This paper takes upon the calculation of climate financing potential in the context of the energy sector of Pakistan by estimating the potential of becoming a net-zero sector in Pakistan's Economy. The study has identified several options for the government to reallocate the energy mix and tie the energy demand targets with climate targets for a green future of Pakistan. The study has used basic excel tools to calculate facts from the available data sets in Pakistan. The study found that, if Pakistan chooses to shift from dirty sources of energy production to the use of cleaner inputs for energy production, Pakistan can generate a significant amount of climate finance by reducing the emissions from energy production, which are recordable, traceable, and can be evaluated by any of the third-party evaluating organization. The initial cost for Pakistan will cause some discrepancies in some of the macroeconomic indicators and may also cause budget imbalances it will surely help the economy to achieve the targets of becoming a net-zero economy and be able to harvest Green Climate Funds in long term with much faster rate, which can overpass the investments made or being made in this sector and will create a significant amount jobs in the economy, which will be green jobs, promoting environmental friendly output and sustainable growth. [ABSTRACT FROM AUTHOR]

Published

2023

80. Promoting sustainable growth and self‐production of energy through the water industry, as key elements for climate change action.

Author

Peral, David, Sánchez, Jorge, López, Paula, Vallés, Federico, and Fernández, Pascual

Subjects

*CLIMATE change mitigation, *ENERGY consumption, *CLIMATE change, *CANALS, *WATER supply, *AUTOPOIESIS, *EXTREME weather

Abstract

The paper focuses on climate actions through water activity and energy synergies supporting a water public operator—Canal de Isabel II—to fight against climate change in the region of Madrid. Actions for its mitigation such as the generation of electricity through water treatment activity are undoubtedly a great tool to face climate change and mitigate CO2 emissions. Led by the Strategic Plan of Canal, a water & energy cycle has been designed that, taking advantage of the different processes carried out, and thanks to the appropriate technologies, allows the generation of 100% renewable electrical energy. Through its solar energy plan, Canal is making an important technological effort to reduce energy consumption, taking advantage of the extensive area the water company has for its operations. At the same time, wastewater solutions ans possibilities are becoming more attractive. This paper explains how the Canal is transforming biogas from wastewater treatment plants into fuel for vehicles. On adaptation, this document describes measures for increasing the availability of resources, reducing water consumption, and preparing for new challenges, provided that water remains an essential resource affordable and accessible to all. In this sense, Canal's main contribution and responsibility is to ensure its availability in the event of water scarcity and to avoid the effects of extreme weather phenomena. In addition, the paper presents important projects related to such adaptations as the tariff structure to discourage high superfluous uses of water or the water reclaimed production. This integrated approach to water and energy production and consumption represents an unbeatable strategy that is recommended for dealing with this global problem in a sustainable way. Canal's activities prove that a water company can aspire to be more sustainable through the implementation of integrated projects on the water and energy nexus. [ABSTRACT FROM AUTHOR]

Published

2023

81. Energy-Efficient Power Scheduling Policy for Cloud-Assisted Distributed PV System: A TD3 Approach.

Author

Zhang, Hao, Liu, Fuhao, Ma, Baichao, Zhang, Shengfang, Peng, Yuxin, Gu, Rentao, and Miao, Jiansong

Subjects

PHOTOVOLTAIC power systems, ENERGY consumption, ENERGY development, CLEAN energy, POWER resources, MICROGRIDS, CLIMATE change

Abstract

To cope with climate change and other environmental problems, countries and regions around the world have begun to pay attention to the development of renewable energy under the drive of achieving the global carbon emission peak and carbon neutrality goal. The distributed photovoltaic (PV) power grid is an effective solution that can utilize solar energy resources to provide clean a energy supply. However, with the continuous grid connection of distributed energy, it poses great challenges to the power supply stability and security of the grid. Therefore, it is particularly important to promote the local consumption of distributed energy and the construction of the energy internet. This paper aims to study the cooperative operation and energy optimization scheduling problem among distributed PV power grids, and proposes a new scheme to reduce the electricity cost under the constraint of power supply and demand balance. The optimization problem is modeled as a Markov decision process (MDP), and a Twin Delayed Deep Deterministic Policy Gradient (TD3) algorithm is used to solve the MDP problem. Simulation results show that the proposed algorithm outperforms other benchmark algorithms in terms of reducing electricity cost, convergence and stability, and verifies its effectiveness. [ABSTRACT FROM AUTHOR]

Published

2023

82. Synthesis of Work-integrated Heat Exchanger Networks Coupled with Organic Rankine Cycles.

Author

Yongjian Huang, Yu Zhuang, Lei Zhang, and Jian Du

Subjects

HEAT exchangers, HEAT transfer, ENERGY consumption, DEEP learning, CLIMATE change

Abstract

Energy integration has been a research hotspot for decades, especially in the field of high energy consumption, like the chemical industry, and many methods for energy integration of process systems have been developed, such as heat exchange network synthesis and work-heat exchange network synthesis. There is still a considerable amount of medium and low-temperature waste heat that has not been effectively utilized in actual industrial production. In response to this problem, studies for the integration of the Organic Rankine Cycle (ORC) and process have been carried out. However, the relevant studies mostly focus on the coupling of ORC and heat exchange network for the recovery of waste heat and do not consider the effect of work production/consumption of the process streams, which neglects the influence of work-heat interaction on the coupling of ORC and work-integrated heat exchange network. This paper optimizes the integration of ORC and process stream with pressure/temperature change and designs a work-integrated heat exchange network. A two-layer genetic algorithm (GA) optimization strategy is proposed to determine the synthesis of heat exchange networks. The outer layer is to optimize the configurations of ORC, and the inner layer is to use an extended Duran-Grossmann model to determine the minimum utility consumption and the inlet temperature of the pressure-change sub-streams with the minimum exergy consumption as the objective function. Finally, the work-integrated heat exchange synthesis coupled with ORC is realized by an example study. [ABSTRACT FROM AUTHOR]

Published

2023

83. Investigation of Fluid Flow and Heat Transfer Around Smooth Sphere with the LES Method.

Author

Haonan Jia, Yuhang Tian, Xing Tian, Jian Yang, and Qiuwang Wang

Subjects

FLUID flow, HEAT transfer, ENERGY consumption, DEEP learning, CLIMATE change

Abstract

Fluid flow around the sphere is widely used in industrial systems, in which the hydrodynamic and heat transfer performances play a key role in energy consumption. The flow and heat transfer characteristics around the sphere are greatly dependent on the shedding and development of vortices. In the present paper, the fluid flow and heat transfer around the smooth sphere are investigated with the LES method. The results show that along the flow direction, the leeward region of the sphere alternately produces up and down-shedding vortices. Vortex shedding causes local pressure changes, resulting in changes in flow and heat transfer performance. The Cd, CL, and Nu fluctuate around a stable value. The frequency and amplitude of the fluctuation increase significantly as the inlet flow rate increases. Especially, the maximum changes in Cd are 6.26 % and 22.79 % when Q = 1 and 6 m³ /h. The frequency of vortex shedding increases by about 2.6 times when the flow rate increases from 2 m³ /h to 5 m³ /h. In addition, the vortex shedding from the leeward region moves downstream with more energy due to the increase in frequency, which leads to more cold fluid participating in heat transfer. [ABSTRACT FROM AUTHOR]

Published

2023

84. Design of net-zero energy building using gym equipment concept.

Author

Mohd Najib, Muhammad Adib and Mohd Sani, Maizura

Subjects

ENERGY consumption, ENERGY development, RENEWABLE energy sources, ENERGY harvesting, BUILDING-integrated photovoltaic systems, GYMNASIUMS, MECHANICAL energy, CLIMATE change

Abstract

Energy sources in the world impact the environment, including climate change and global gas emissions, which lead to the development of renewable energy sources. This paper investigates gym equipment as an energy-generation approach to support energy consumption or utilization for a building listed as Net-Zero Energy Building. This alternative method to generate energy sources is based on two gym equipment, i.e., a static bicycle and a treadmill. The mechanical energy will be transformed into electrical energy from an alternator before storing it in a battery. Then, an inverter circuit was designed to convert the DC to AC to power the electrical appliances. Several analyses have been made, including the durability and improvement strategies for the system's stability. Overall, this system has achieved its objectives and generates sufficient energy for a building. This concept is an innovation for power harvesting that appears to generate a renewable energy source and can be applied to any building, primarily in residential areas. [ABSTRACT FROM AUTHOR]

Published

2023

85. Climate policy integration viewed through the stakeholders' eyes: A co‐production of knowledge in social‐ecological transformation research.

Author

Plank, Christina, Haas, Willi, Schreuer, Anna, Irshaid, Jenan, Barben, Daniel, and Görg, Christoph

Subjects

VERTICAL integration, ENERGY consumption, LAND use, CLIMATE change, ECONOMIC expansion

Abstract

Climate policy integration (CPI) is regarded in the literature as key to combatting climate change. It has been critically discussed to what extent climate policy is integrated in different policy fields at the European and the national level. In this paper, we analyze the expectations toward CPI from the perspective of stakeholders focusing on two fields in Austria — energy and land use. We combine CPI approaches with social‐ecological transformation research, which highlights obstacles for CPI, which can be found in the polity, leading to conflicts between different actor groups or institutions. More specifically, we examine, through a process of co‐production of knowledge together with stakeholder groups, how CPI functions in its categories of horizontal and vertical policy integration, cooperation and conflict, reporting, vision, uncertainties, and reflexivity. Results show that policy integration remains contested, alternative visions to economic growth are needed and communication with policy‐makers needs to be improved. Furthermore, reflexive learning is central for the success of CPI. Finally, it matters who has access and who plays a role in governance structures. Co‐production of knowledge can play a crucial role, but faces a challenging tension between being inclusive and losing its transformative capacities. A shift from a narrow focus on policy making to consider the limiting or enabling structural conditions for interaction between a wide variety of stakeholders is required. Instead of reflexive learning how to best accommodate the powerful interest groups, this could increase the space for reflexive and adaptive policy integration aimed at achieving normative climate targets. [ABSTRACT FROM AUTHOR]

Published

2021

86. The role of green production process innovation in green manufacturing: empirical evidence from OECD countries.

Author

Yan, Zheming, Shi, Rui, Du, Kerui, and Yi, Lan

Subjects

MANUFACTURING processes, TECHNOLOGICAL innovations, GREEN products, TRANSITION economies, ENERGY consumption, CLIMATE change

Abstract

Under the climate change background, green manufacturing is a critical path to realizing a low-carbon economy. The role of green products from manufacturing in economy-wide green transition has been discussed in the literature. In contrast, innovation in the industrial process, an important driver of climate change, has seldom been studied. This paper investigates the impact of green production process innovation on green manufacturing production using a fixed-effect SFA model. Furthermore, we discuss whether the impact of green production process innovation is conditioned on the economic development level, using a newly developed partial linear functional model. The results show that green production process innovation benefits green manufacturing, promoting sectoral carbon and energy efficiency. This paper further proposes policy implications, based on the findings that the green production process innovation's marginal effects vary with economic development level. [ABSTRACT FROM AUTHOR]

Published

2022

87. TRANSFORMATION AND ACCELERATION OF THE CONSTRUCTION SUPPLY CHAIN THROUGH SMART FACTORIES.

Author

Zander, Bennet, Lange, Kerstin, Decorte, Yanaika, Steeman, Marijke, Struck, Christian, and Gieling, Chris

Subjects

SUPPLY chains, ENERGY consumption, CONSTRUCTION industry, CONSTRUCTION materials, CLIMATE change

Abstract

The European building stock is in high need of refurbishment due to its contribution to excessive global energy consumption. In the North-Sea Region (NSR) alone there are 22 million houses built between 1950 and 1985 with an annual CO2 emission of 79 Mton. Current deep retrofits are carried out on a limited-scale production, which may result in climate targets not being met in time. To tackle the need for rapid renovations, prefabricated insulation elements with integrated intelligent technologies, manufactured in novel smart factories using mass customization, could offer a solution. This approach is also followed by the Interreg project INDU-ZERO. The project examines a far-reaching automated production and develops a blueprint for a smart construction factory in the NSR that can produce 15 000 renovation packages per year. This paper aims to quantify the acceleration potential of the supply chain by improving its production, logistics, and on-site mounting processes for Dutch single-family terraced houses. First, the design of the renovation packages and smart construction factories are introduced. Then, the procedure is elaborated on how the supply chain can be abbreviated. The results show that the renovation cycle time can be completed within two weeks through coordinated efforts between production, logistics, and mounting. [ABSTRACT FROM AUTHOR]

Published

2022

88. Public perception of transitioning to a low-carbon nation: a Malaysian scenario.

Author

Wong, Fadhli Wong Mohd Hasan, Foley, Aoife, Del Rio, Dylan Furszyfer, Rooney, David, Shariff, Shahidah, Dolfi, Andrea, and Srinivasan, Geetha

Subjects

SUSTAINABILITY, RENEWABLE energy sources, PUBLIC opinion, PARIS Agreement (2016), SUSTAINABLE development, ENERGY consumption, CALORIC expenditure

Abstract

Efforts such as the Glasgow United Nations Climate Change Conference of the Parties 26, the Paris Agreement (Paris agreement, United Nations, Paris, 2015) and the United Nations Sustainable Development Goals are supporting the drive to protect the planet from global warming by ensuring sustainable development. The oil and gas industry, as key contributor to greenhouse gas emissions, must transition to more sustainable energy solutions and play their part in reducing these emissions. Currently, oil and gas companies are implementing technical solutions to achieve net zero carbon emissions. The energy transition from fossil fuel reliance has also happened by exploiting alternative renewable energy sources to meet global energy demand such as wind, solar, biogas and bioderived feedstocks. This net zero energy transition will require a fair and just transition for all in society, and to implement this, it is crucial for those working in the oil and gas industry to understand the technologies needed, the importance of carbon policies and their roles. This research presents a modified Delphi study of employees in Malaysia's national oil and gas company to understand their perceptions towards a net-zero carbon future. The paper briefly reviews Malaysia's low-carbon policy plans, its current carbon dioxide accounting balance, and identifies potential technologies for decarbonisation to set the scene for the modified Delphi study. The results indicated that the national oil and gas company has both the capabilities and the financial resources to significantly contribute towards Malaysia transitioning to a carbon neutral nation. This can be achieved by implementing advanced technologies complementing with nature-based solutions to realise net zero carbon emissions. This study also portrays the confidence that the portfolio of solutions should be executed through a coordinated effort to maximise the outcome and minimise the financial impact in terms of economical sustainability. Implementation of activities towards this energy transition will require significant social commitment, and hence, gauging their perception towards this journey is key objective of this paper. [ABSTRACT FROM AUTHOR]

Published

2022

89. Green University and the reduction of the carbon footprint in academic activities at a public university in Ecuador.

Author

Mendoza Vargas, Emma Yolanda, Saa Saltos, Jorge Wilson, Fiallos Barrionuevo, Alex Rosendo, and Escobar Terán, Harold Elbert

Subjects

*CARBON dioxide, *PUBLIC universities & colleges, *ECOLOGICAL impact, *CARBON emissions, *CLIMATE change, *ENERGY consumption, *TEACHERS, *ACHIEVEMENT

Abstract

The carbon footprint is one of the main factors for measuring CO emissions2, this atmospheric gas represents a worldwide environmental problem. Currently, universities are making inroads into the solution through the quantification and mitigation of CO2. Academic activities and the delivery of physical documents generate high amounts of paper consumption and consequently levels of CO2, which establishes a problem. The objective is to estimate the carbon footprint of the Universidad Técnica Estatal de Quevedo (UTEQ) located in Ecuador. The methodology employed consisted of a quantification of the number of files registered in the academic system per year. The files were multiplied by an average number of sheets obtained through a survey applied to teachers. The carbon footprint was determined by multiplying the CO emission factor2 by annual paper consumption. The emissions obtained are 3.21 ton CO2 eq to 3.00 ton CO2 eq for the year 2020-2021 and 2021-2022, respectively. The virtual education implemented at UTEQ contributed to the fulfillment of climate change objectives, due to the non-emitted CO2 emissions determined in this study, an issue that is related to the achievement of a green university. [ABSTRACT FROM AUTHOR]

Published

2022

90. Reducing Energy Use Through Behavioural Change: Carbon Literacy Training for Archives in the UK.

Author

Finch, Lorraine, Powell, Tim, and Wilson, Helen

Subjects

*GREENHOUSE gases, *SUSTAINABILITY, *ENERGY consumption, *CLIMATE change, *CARBON

Abstract

This paper reviews the process of adapting the Carbon Literacy for Museums Toolkit to develop a course specifically for the archive sector, Carbon Literacy for Archives, Records and Special Collections. This toolkit was launched to the sector in spring 2024. It discusses why carbon literacy (CL) is important, covering the benefits, co-benefits and what CL is. It examines the impact of carbon literacy training (CLT) on greenhouse gas emission and energy use reduction, and why CLT is so effective in generating the transformational behavioural change that is needed to create a sustainable future. [ABSTRACT FROM AUTHOR]

Published

2024

91. Energy and Carbon Savings in European Households Resulting from Behavioral Changes.

Author

Widera, Barbara

Subjects

GREEN behavior, RENEWABLE energy sources, CLIMATE change mitigation, SUSTAINABLE transportation, ENERGY consumption, BUILT environment

Abstract

The study evaluates the impact of behavioral changes resulting from climate awareness on energy consumption and carbon emissions in European households based on the results of a two-stage survey addressed to individuals manifesting pro-ecological attitudes. In the first stage, the author analyzed 67 pro-environmental behaviors declared by the participants, identified a set of new sustainable choices, and compared them to the conservation habits used in Rasch and Campbell's models. The 10 most popular initiatives undertaken by over 50% of participants were selected for further analysis. The influence of these initiatives on energy consumption and CO2 emissions was assessed. A total of 24 impact indicators were identified at the building scale. Energy and carbon savings were calculated for 500 participants from 28 European countries and compared to the results computed for the 100 households used as a reference. The main conclusions from the research concern the significance of individual decisions at the building scale in the context of their actual environmental impact calculated for a larger scale. The comparative analysis showed that the highest annual energy (2292.1 MWh) and emission (267.02 tons of CO2) savings resulted from the car-to-bicycle (or walking) transition on short-distance trips (declared by 79%) and from the transition from non-renewable to renewable energy sources (PV panels installed by 65% of respondents). Annual energy and emission savings reached, respectively, 1300 MWh and 262.6 tons of CO2. The research findings help explain the critical importance of transforming the built environment towards renewable energy sources and supporting pedestrian and sustainable transportation. [ABSTRACT FROM AUTHOR]

Published

2024

92. Green Hospital as a new Standard in Japan: How far can Neurosurgery go in Japan?

Author

Asamoto, Shunji, Sawada, Haruki, Muto, Jun, Arai, Takashi, and Kawamata, Takakazu

Subjects

*GREENHOUSE gases, *NEUROSURGERY, *CLIMATE change, *HOSPITALS, *ENVIRONMENTAL health

Abstract

Climate change is a significant challenge that the medical community must address. Hospitals are large facilities with high water and energy consumption, as well as high levels of waste generation, which makes it important to pursue green hospital initiatives. Neurosurgery requires substantial energy for surgeries and tests. Based on the keywords "Climate change," "green hospital," "neurosurgery," "energy consumption," "environmental impact" listed in this paper, we extracted representative manuscripts, and the practices employed in the authors' hospital were assessed. The "Guidelines for Environmental Consideration in Hospitals" and "Guidelines for the Sustainability of Hospital Environments" have been developed; however, they are not implemented in most hospitals in Japan. Inhalational anesthetics were found to contribute significantly to greenhouse gas emissions. Educating patients and staff and employing the "8 Rs" (rethink, refuse, reduce, reuse, recycle, research, renovation, and revolution) showed promise in achieving green hospital standards. The advent of 'green hospitals' in Japan is imminent. The active participation of neurosurgeons can play a crucial role in diminishing the environmental footprint of health care while simultaneously enhancing medical standards. Given the pressing challenges posed by climate change, there is a critical need for an overhaul of medical practices. It is imperative for neurosurgeons to pioneer the adoption of new, sustainable medical methodologies. [ABSTRACT FROM AUTHOR]

Published

2024

93. INCENTIVIZING LANDLORD ENGAGEMENT IN A CLEAN ENERGY TRANSITION IN NOVA SCOTIA, CANADA: A CASE STUDY OF ENERGIZE BRIDGEWATER.

Author

Calderwood, Claire, Walker, Chad, and Biggar, Jeffrey

Subjects

ENERGY consumption, RENTAL housing, LANDLORD-tenant relations, ENERGY industries, LANDLORDS

Abstract

Split incentives, in which the costs and benefits of energy efficiency upgrades are unevenly felt between landlords and tenants, are a powerful barrier that prevents retrofits from taking place. The problem is clearly playing out across the low-income, and inefficient homes of Bridgewater, Nova Scotia, Canada, where greenhouse emissions are high, and a large proportion of residents are burdened by energy poverty. To help solve the problem and facilitate home energy efficiency renovations, a project called Energize Bridgewater was developed. Guided by 10 semi-structured interviews with Energize Bridgewater team members (n = 4) and property managers (n = 6), we present a case study which sought to contextualize and better understand how Energize Bridgewater may incentivize owners of rental houses to participate in this clean energy transition. Our results focus on three main findings: i) the reality of the split incentive problem in Bridgewater; ii) barriers to landlord engagement; and iii) reactions to proposed programming. We close this paper with a discussion of the theoretical and practical implications of our work, including a set of recommendations for Energize Bridgewater and similar projects facing the split incentive problem while working toward a clean and cost-effective energy transition. [ABSTRACT FROM AUTHOR]

Published

2024

94. Increased home energy use: unintended outcomes of energy efficiency focused policy.

Author

Wingrove, Katherine, Heffernan, Emma, and Daly, Daniel

Subjects

HOME energy use, ENERGY consumption, RESIDENTIAL mobility, CLIMATE change, ENERGY policy, THERMAL comfort, GOVERNMENT policy

Abstract

Residential energy policies for individual dwellings predominantly provide minimum design standards for thermal performance and energy efficiency on a square metre basis. This paper quantifies predicted dwelling energy use on a national scale to enable evaluation of the effectiveness of this policy model. Utilizing Australia as a case study, analysis of 580,956 thermal energy design certificates for new detached dwellings verifies that, although minimum energy efficiency design standards were achieved, predicted energy use for thermal comfort increased by 10.4% per dwelling and 5.6% nationally in 2022 compared to 2018. The study examines the impact of both the number and floor area of new dwellings on dwelling energy use and highlights the disparate jurisdictional outcomes resulting from inconsistent implementation of national policy across multi-state governance. To deliver reductions in household energy use it is imperative that residential energy policies target household energy use, rather than only energy efficiency, of new dwellings, of which floor area is a key determinant. Furthermore, to achieve global climate change objectives, there is a need for complementary policy mechanisms that consider the collective energy use of the residential dwelling sector. [ABSTRACT FROM AUTHOR]

Published

2024

95. THE EFFICIENCY OF ENERGY CONSUMPTION ON FARMS IN LATVIA .

Author

Bratka, Valda and Prauliņš, Artūrs

Subjects

ENERGY consumption, ENERGY crops, ENERGY industries, NONGOVERNMENTAL organizations, CLIMATE change

Abstract

ABSTRACT This paper aims to explore the efficiency of energy consumption on farms of different economic sizes in Latvia. Burning fossil fuels to satisfy a continuously growing demand for energy created by the industry, transport and households has been a cause of concern for several decades. It has been widely acknowledged as one of the major reasons for a massive increase in greenhouse gas emissions, a dramatic rise of global temperature and ongoing climate changes. Since farms use energy not only directly by operating machinery and equipment but also indirectly by utilizing energy-intensive fertilizers, pesticides and other chemicals, nowadays, the agricultural sector meets a serious challenge of devising and employing sustainable methods of production to enhance the efficiency of consumed energy. Although this topic has been high on the agenda for researchers, policy-makers, national, international, governmental and non-governmental organizations, little attention has been paid to a comparative analysis of the efficiency of energy consumption across various farms in Latvia. This paper attempts to fill this gap in the literature by examining the consumption of energy per hectare of the utilised agricultural area and per livestock unit over the years since Latvia’s accession to the EU in 2004. The paper adopted a mixed-method approach by integrating and interpreting the results of quantitative and qualitative data analysis. A statistical analysis was based on data obtained from SUDAT - a national component of the EU Farm Accountancy Data Network (FADN) in Latvia. Research shows that the efficiency of energy consumption significantly differs between farms of various economic sizes. [ABSTRACT FROM AUTHOR]

Published

2020

96. Energy–Carbon Emissions Nexus Causal Model towards Low-Carbon Products in Future Transport-Manufacturing Industries.

Author

Adenuga, Olukorede Tijani, Mpofu, Khumbulani, and Modise, Ragosebo Kgaugelo

Subjects

CARBON emissions, ENERGY consumption, CAUSAL models, CLIMATE change, GREENHOUSE gases, GOVERNMENT agencies

Abstract

Climate change is progressing faster than previously envisioned. Efforts to mitigate the challenges of greenhouse gas emissions by countries through the establishment of the Intergovernmental Panel on Climate Change has resulted in continuous environmental improvements in the energy efficiency and carbon emission signatures of products. In this paper, an energy–carbon emissions nexus causal model was applied using the Leontief Input–Output mathematical model for low-carbon products in future transport-manufacturing industries., The relationship between energy savings, energy efficiency, and the carbon intensity of products for the carbon emissions signature of the future transport manufacturing in South Africa was established. The interrelationship between the variables resulted in a 29% improvement in the total energy intensity of the vehicle body part products, 7.22% in the cumulative energy savings, and 16.25% in the energy efficiency. The scope that has been examined in this paper will be interesting to agencies of government, researchers, policymakers, business owners, and practicing engineers in future transport manufacturing and could serve as a fundamental guideline for future studies in these areas. [ABSTRACT FROM AUTHOR]

Published

2022

97. Emerging Actions and Energy Strategies for Sustainable Development of Sakarya City, Turkey: A SWOT Analysis.

Author

Aksoy Tırmıkçı, Ceyda

Subjects

SUSTAINABLE development, SWOT analysis, CLIMATE change mitigation, URBAN growth, AIR pollution, ENERGY consumption, CLIMATE change

Abstract

Turkey has been one of the earliest participants of the international climate policy process, since the Ministerial Conference on Atmospheric Pollution and Climate Change held in 1989. The country has prepared strategy documents, actions plans, sectoral policies, and projects to detect and adapt climate change effects. However, any of this has not turned into a main plan to support climate change mitigation on an international scale. The purpose of this paper is to identify local climate change mitigation strategies of Sakarya city, Turkey, by strengths, weaknesses, opportunities, and threats (SWOT) analysis. For this purpose, relevant information were gathered from Covenant of Mayors, greenhouse gas inventories of the city, National Energy Efficiency Action Plan, online workshop with 44 local stakeholders from private sector and local universities held on 13.10.2020. The results emphasized the importance of the cross-link between local adaptation and mitigation in terms of energy demand and energy-based emissions on national and international scale. [ABSTRACT FROM AUTHOR]

Published

2022

98. The effect of regional mitigation of carbon dioxide emission on energy efficiency in China, based on a spatial econometrics approach.

Author

Pan, Xiongfeng, Pan, Xianyou, Ming, Yang, and Zhang, Jing

Subjects

CARBON dioxide mitigation, ENERGY consumption, POWER resources

Abstract

Based on provincial panel data from 2000 to 2014, this paper measured the total factor energy efficiency by adopting the dynamic slacks-based measure model, and then employed the spatial econometric model to analyze the impact of regional mitigation of carbon dioxide on energy efficiency from both intra-regional and inter-regional perspectives in China. The results show the following: first, the average of total factor energy efficiency presents a rising trend from 2000 to 2014, and it shows a significant difference among regions. Second, the direct effect of carbon productivity on energy efficiency is positive, but the indirect effect is negative. The share ratio of direct and indirect effects is 1: −0.96; the total effect is positive but insignificant. Based on this conclusion, the paper provides some relevant policy suggestions and measures for regionally saving energy resources and relieving environmental constraints. [ABSTRACT FROM AUTHOR]

Published

2018

99. Prospects and challenges of nanofluids as improved fuel for diesel and gasoline engines: A critical review.

Author

Sule, Ahmed, Latiff, Zulkarnain Abdul, and Abbas, Mohammed Azman

Subjects

DIESEL motors, NANOFLUIDS, ENERGY consumption, FOSSIL fuels, DIESEL fuels, CLIMATE change, ALTERNATIVE fuels

Abstract

Climate change has been a global challenge which researchers have been trying to curtail over the years using different scientific approach, a major contributor to climate change is the combustion of fossil fuel which has influenced the search for alternative fuel sources among which is biodiesel. However, Biodiesel is associated with its limitations including higher nitrogen oxide (NOx) emission. This paper therefore present various recent findings and impacts of blending nanoparticles with biodiesel and conventional diesel, the merits and demerits in terms of power output, fuel consumption and emissions as well as the possibility of using nanofluids as future alternative fuel for diesel and gasoline engines. [ABSTRACT FROM AUTHOR]

Published

2023

100. Smart and intelligent energy monitoring systems: A comprehensive literature survey and future research guidelines.

Author

Hussain, Tanveer, Min Ullah, Fath U, Muhammad, Khan, Rho, Seungmin, Ullah, Amin, Hwang, Eenjun, Moon, Jihoon, and Baik, Sung Wook

Subjects

SMART cities, ENERGY management, CLIMATE change, ELECTRICAL load, LITERARY form, ENERGY consumption, KEY performance indicators (Management)

Abstract

Summary: Computationally intelligent energy forecasting methods for appropriate energy management at the consumer/producer side have a positive impact on the preservation of energy and play a constructive role in tackling global climate change. The energy production and consumption are very high worldwide, demanding intelligent methods with real‐world implementation potentials for appropriate energy management. In this paper, we survey the existing intelligent load forecasting (ILF) systems, highlight their advantages and downsides, and briefly discuss the workflow of the employed literature. Furthermore, we debate on the existing load forecasting datasets and their features along with a brief overview of the challenges confronted by researchers using these datasets. Distinct from previous survey papers, we provide a detailed review of performance evaluation metrics and comparison of employed methods for energy load forecasting, thereby concluding the need of efficient, effective, and adoptable ILF methods functional in real‐world scenarios. Finally, we assess the employed techniques and deliver future research opportunities based on the derived conclusions from existing research works. This paper delivers the overall energy forecasting literature in a compact form with possible future insights for researchers working in ILF domain. [ABSTRACT FROM AUTHOR]

Published

2021