METHODOLOGICAL APPROACH TO IMPROVE ENERGY EFFICIENCY BY CONCENTRATING OPERATION POINTS AN ELECTRICAL TRANSFORMER MAINTENANCE COMPANY

Energy ratings and minimum requirements for thermal envelopes and heating and air conditioning systems emerged as tools to minimize energy consumption and greenhouse gas emissions, improve energy efficiency and promote greater transparency with regard to energy use in buildings. In Latin America, not all countries have building energy efficiency regulations, many of them are voluntary and more than 80% of the existing initiatives are simplified methods and are centered in energy demand analysis and the compliance of admissible values for different indicators. However, the application of these tools, even when simplified, is reduced. The main objective is the development of a simplified calculation method for the estimation of the energy consumption of multifamily housing buildings. To do this, an energy model was created based on the real use and occupation of a reference building, its thermal envelope and its thermal system’s performance. This model was simulated for 42 locations, characterized by their climatic conditions, whilst also considering the thermal transmittance fulfilment. The correlation between energy consumption and the climatic conditions is the base of the proposed method. The input data are seven climatic characteristics. Due to the sociocultural context of Latin America, the proposed method is estimated to have more possible acceptance and applications than other more complex methods, increasing the rate of buildings with an energy assessment. The results have demonstrated a high reliability in the prediction of the statistical models created, as the determination coefficient (R2) is nearly 1 for cooling and heating consumption.

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Are Cross-Border Classes Feasible for Students to Collaborate in the Analysis of Energy Efficiency Strategies for Socioeconomic Development While Keeping CO2 Concentration Controlled?

Sustainability ◽

10.3390/su13031584 ◽

2021 ◽

Vol 13 (3) ◽

pp. 1584

Author(s):

Roberto Araya ◽

Pedro Collanqui

Keyword(s):

Energy Efficiency ◽

Socioeconomic Development ◽

Concept Maps ◽

Research Question ◽

Co2 Concentration ◽

Asia Pacific ◽

School Students ◽

Improve Energy Efficiency ◽

Cross Border ◽

Science Classes

Education is critical for improving energy efficiency and reducing CO2 concentration, but collaboration between countries is also critical. It is a global problem in which we cannot isolate ourselves. Our students must learn to collaborate in seeking solutions together with others from other countries. Thus, the research question of this study is whether interactive cross-border science classes with energy experiments are feasible and can increase awareness of energy efficiency among middle school students. We designed and tested an interactive cross-border class between Chilean and Peruvian eighth-grade classes. The classes were synchronously connected and all students did experiments and answered open-ended questions on an online platform. Some of the questions were designed to check conceptual understanding whereas others asked for suggestions of how to develop their economies while keeping CO2 air concentration at acceptable levels. In real time, the teacher reviewed the students’ written answers and the concept maps that were automatically generated based on their responses. Students peer-reviewed their classmates’ suggestions. This is part of an Asia-Pacific Economic Cooperation (APEC) Science Technology Engineering Mathematics (STEM) education project on energy efficiency using APEC databases. We found high levels of student engagement, where students discussed not only the cross-cutting nature of energy, but also its relation to socioeconomic development and CO2 emissions, and the need to work together to improve energy efficiency. In conclusion, interactive cross-border science classes are a feasible educational alternative, with potential as a scalable public policy strategy for improving awareness of energy efficiency among the population.

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Dimensionless Analysis on the Characteristics of Pneumatic Booster Valve with Energy Recovery

Mathematical Problems in Engineering ◽

10.1155/2016/2804816 ◽

2016 ◽

Vol 2016 ◽

pp. 1-13

Author(s):

Fan Yang ◽

Kotaro Tadano ◽

Gangyan Li ◽

Toshiharu Kagawa

Keyword(s):

Mathematical Model ◽

Energy Efficiency ◽

Energy Recovery ◽

Operational Parameters ◽

Local Pressure ◽

Air Power ◽

Improve Energy Efficiency ◽

Dimensionless Analysis ◽

Air Supply ◽

Save Energy

Factories are increasingly reducing their air supply pressures in order to save energy. Hence, there is a growing demand for pneumatic booster valves to overcome the local pressure deficits in modern pneumatic systems. To further improve energy efficiency, a new type of booster valve with energy recovery (BVER) is proposed. The BVER principle is presented in detail, and a dimensionless mathematical model is established based on flow rate, gas state, and energy conservation. The mathematics model was transformed into a dimensionless model by accurately selecting the reference values. Subsequently the dimensionless characteristics of BVER were found. BVER energy efficiency is calculated based on air power. The boost ratio is found to be mainly affected by the operational parameters. Among the structural ones, the recovery/boost chamber area ratio and the sonic conductance of the chambers are the most influential. The boost ratio improves by 15%–25% compared to that of a booster valve without an energy recovery chamber. The efficiency increases by 5%–10% depending on the supply pressure. A mathematical model is validated by experiment, and this research provides a reference for booster valve optimisation and energy saving.

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Dynamic channel access with asynchronous sleep-wake scheduling to improve energy efficiency in CRSNs

2017 International Conference on Intelligent Computing and Control (I2C2) ◽

10.1109/i2c2.2017.8321843 ◽

2017 ◽

Cited By ~ 2

Author(s):

S Akhila ◽

K P Priya

Keyword(s):

Energy Efficiency ◽

Channel Access ◽

Improve Energy Efficiency ◽

Dynamic Channel

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Opportunities to improve energy efficiency and reduce greenhouse gas emissions for a cogeneration plant

2010 IEEE International Energy Conference ◽

10.1109/energycon.2010.5771787 ◽

2010 ◽

Cited By ~ 5

Author(s):

H. Moradi ◽

I. Gerami Moghaddam ◽

M. Parsa Moghaddam ◽

M. R. Haghifam

Keyword(s):

Energy Efficiency ◽

Greenhouse Gas Emissions ◽

Greenhouse Gas ◽

Cogeneration Plant ◽

Gas Emissions ◽

Improve Energy Efficiency

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Technological Energy Efficiency Improvements in Cement Industries

Sustainability ◽

10.3390/su13073810 ◽

2021 ◽

Vol 13 (7) ◽

pp. 3810

Author(s):

Alessandra Cantini ◽

Leonardo Leoni ◽

Filippo De Carlo ◽

Marcello Salvio ◽

Chiara Martini ◽

...

Keyword(s):

Energy Efficiency ◽

Energy Consumption ◽

Descriptive Analysis ◽

Cement Industry ◽

Cement Plant ◽

Improve Energy Efficiency ◽

Energy Needs ◽

Industrial Energy ◽

Industrial Energy Consumption ◽

Alternative Solutions

The cement industry is highly energy-intensive, consuming approximately 7% of global industrial energy consumption each year. Improving production technology is a good strategy to reduce the energy needs of a cement plant. The market offers a wide variety of alternative solutions; besides, the literature already provides reviews of opportunities to improve energy efficiency in a cement plant. However, the technology is constantly developing, so the available alternatives may change within a few years. To keep the knowledge updated, investigating the current attractiveness of each solution is pivotal to analyze real companies. This article aims at describing the recent application in the Italian cement industry and the future perspectives of technologies. A sample of plant was investigated through the analysis of mandatory energy audit considering the type of interventions they have recently implemented, or they intend to implement. The outcome is a descriptive analysis, useful for companies willing to improve their sustainability. Results prove that solutions to reduce the energy consumption of auxiliary systems such as compressors, engines, and pumps are currently the most attractive opportunities. Moreover, the results prove that consulting sector experts enables the collection of updated ideas for improving technologies, thus giving valuable inputs to the scientific research.

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Energy-Efficient Hybrid Routing Protocol for IoT Communication Systems in 5G and Beyond

Sensors ◽

10.3390/s21020537 ◽

2021 ◽

Vol 21 (2) ◽

pp. 537

Author(s):

Mohammad Baniata ◽

Haftu Tasew Reda ◽

Naveen Chilamkurti ◽

Alsharif Abuadbba

Keyword(s):

Energy Efficiency ◽

Network Lifetime ◽

Energy Efficient ◽

Communication Systems ◽

Multiple Input Multiple Output ◽

Sensor Nodes ◽

Clustering Methods ◽

Mimo Antenna ◽

Improve Energy Efficiency ◽

Art Research

One of the major concerns in wireless sensor networks (WSNs) is most of the sensor nodes are powered through limited lifetime of energy-constrained batteries, which majorly affects the performance, quality, and lifetime of the network. Therefore, diverse clustering methods are proposed to improve energy efficiency of the WSNs. In the meantime, fifth-generation (5G) communications require that several Internet of Things (IoT) applications need to adopt the use of multiple-input multiple-output (MIMO) antenna systems to provide an improved capacity over multi-path channel environment. In this paper, we study a clustering technique for MIMO-based IoT communication systems to achieve energy efficiency. In particular, a novel MIMO-based energy-efficient unequal hybrid clustering (MIMO-HC) protocol is proposed for applications on the IoT in the 5G environment and beyond. Experimental analysis is conducted to assess the effectiveness of the suggested MIMO-HC protocol and compared with existing state-of-the-art research. The proposed MIMO-HC scheme achieves less energy consumption and better network lifetime compared to existing techniques. Specifically, the proposed MIMO-HC improves the network lifetime by approximately 3× as long as the first node and the final node dies as compared with the existing protocol. Moreover, the energy that cluster heads consume on the proposed MIMO-HC is 40% less than that expended in the existing protocol.

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Renewable Energy Technologies for Energy Efficient Buildings: The Case of Kuwait

Energies ◽

10.3390/en14154440 ◽

2021 ◽

Vol 14 (15) ◽

pp. 4440

Author(s):

Bader Alshuraiaan

Keyword(s):

Energy Efficiency ◽

Renewable Energy ◽

Solar Energy ◽

Energy Savings ◽

Methodological Approach ◽

Investment Efficiency ◽

Renewable Energy Technologies ◽

Energy Technologies ◽

Energy Efficient Buildings ◽

Proposed Model

The purpose of this study is to identify the most relevant renewable energy technologies for buildings and to assess the effectiveness of their implementation in the long term for Kuwait. Methods of analogies and comparisons were used to determine the features of energy efficiency based on the technologies under study. The study proposes the methodological approach to assessing the effectiveness of the introduction of renewable energy technologies, determining the direction of increasing the energy efficiency of buildings and the investment efficiency of introducing these technologies. Renewable energy efficiency analysis for buildings in Kuwait confirms that solar energy systems have been the most widely available for widespread use of solar energy over the past three years. An increasing level of energy efficiency with a decrease in the notional cost of increasing energy savings is characteristic of solar collectors with booster reflectors. The proposed model for assessing the level of energy saving provides an opportunity for economic justification of introducing renewable energy technology in buildings.

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