Energy Consumption Profile of Hotel Buildings in Chongqing

14 hotels were selected in Chongqing for energy consumption profile analysis. And all of the hotel buildings are high quality hotels with 3-star or above. Due to the extremely local climate, the energy demand on heating and cooling is dominant in the total energy consumption. From the analysis, it is found that heating in winter accounts for more than half of the fuel use and cooling in summer is for around half of power consumption. Moreover, the chillers, pumps and terminals are responsible for one third of HVAC energy consumption respectively. As estimated from the samples, the energy consumption index of Chongqing hotel buildings is between 107 and 155 kWh/m2.

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Use of mechanical resonance in impact machines

MATEC Web of Conferences ◽

10.1051/matecconf/201821117006 ◽

2018 ◽

Vol 211 ◽

pp. 17006

Author(s):

Wieslaw Fiebig ◽

Jakub Wrobel

Keyword(s):

Energy Consumption ◽

Total Energy ◽

Energy Demand ◽

Drive System ◽

Mechanical Resonance ◽

Total Energy Consumption ◽

At Resonance ◽

Innovative Method ◽

Drive Systems

An innovative method exploiting mechanical resonance in machines drive systems, especially useful in impact machines, has been developed. Accumulation of energy at resonance can be applied to the drive system in a similar way as flywheels in eccentric presses. Under resonance conditions, the total energy consumption of the oscillating mass is equal to the energy lost due the damping forces. Energy accumulated in the oscillator can be several times greater than the energy supplied continuously to the oscillator. The developed method can be used in many applications, especially in impacting machines. Finally, the energy demand of resonance punching press will be compared with the energy demand of eccentric press.

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The Relationship between Economics Growth and Energy Consumption in China-A Empirical Analysis Based on Energy Kuznets Curve

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1073-1076.2457 ◽

2014 ◽

Vol 1073-1076 ◽

pp. 2457-2461

Author(s):

Chang Sheng Li ◽

Qing Ling Li ◽

Zhong Min Lei ◽

Han Yang ◽

Hui Qing Qu

Keyword(s):

Energy Consumption ◽

Total Energy ◽

Empirical Analysis ◽

Energy Demand ◽

Kuznets Curve ◽

Total Energy Consumption ◽

Energy Demands ◽

High Level ◽

The Relationship ◽

Relative High Level

These paper investigated the relationship between economics development and energy demands based on Energy Kuznets Curve (EFC) in China. The results show that, the prospects of economics and energy demand in China in further will undergo three important stages to 2050.The peak of energy demand maybe around 2035 and the corresponding total energy demand maybe amount 5.7 billion tce. In 2035, the GDP per capital maybe about 17000 (2005 US$) and the urbanization will reach a relative high level. It is urgent for China to take actions to curb the increasing total energy consumption.

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Study and Determination of Evaluating Indicator of Public Building Energy Consumption in Hot Summer and Warm Winter Area

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.838-841.1953 ◽

2013 ◽

Vol 838-841 ◽

pp. 1953-1958

Author(s):

Hai Li Sun ◽

Zhi Chao Wang ◽

Jun Jun Lu

Keyword(s):

Energy Consumption ◽

Total Energy ◽

Energy Saving ◽

Building Energy ◽

Shopping Malls ◽

Total Energy Consumption ◽

Public Building ◽

Partial Energy ◽

Consumption Index

Determination of buildingenergy consumption index is important for building energy saving.This paper simulits energy consumption of fifty public building(incluiding 15 non - government office buildings, 11 government officebuildings, 12 shopping malls, 12 hotel buildings) after abandoning theunreasonable design and operation factors. We can obtain the building total energy consumption index andpartial energy consumption index.Then all types of building energy consumptiondata are processed with the method of mathematical statistics.We can get fourtypes of biuding energy consumption index and partial energy consumptionindex.This study can provide the basis for energy-saving operation andenergy-saving reformation.

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Energy consumption of a passenger car with a hybrid powertrain in real traffic conditions

Combustion Engines ◽

10.19206/ce-142555 ◽

2021 ◽

Author(s):

Andrzej Bieniek ◽

Mariusz Graba ◽

Jarosław Mamala ◽

Krzysztof Prażnowski ◽

Krystian Hennek

Keyword(s):

Energy Consumption ◽

Energy Expenditure ◽

Total Energy ◽

Energy Demand ◽

Combustion Engine ◽

Operating Conditions ◽

Drive System ◽

Hybrid Drive ◽

Total Energy Consumption ◽

Passenger Car

The analysis of energy consumption in a hybrid drive system of a passenger car in real road conditions is an important factor determining its operational indicators. The article presents energy consumption analysis of a car equipped with an advanced Plug-in Hybrid Drive System (PHEV), driving in real road conditions on a test section of about 51 km covered in various environmental conditions and seasons. Particular attention was paid to the energy consumption resulting from the cooperation of two independent drive units, analyzed in terms of the total energy expenditure. The energy consumption obtained from fuel and energy collected from the car’s batteries for each run over the total distance of 12,500 km was summarized. The instantaneous values of energy consumption for the hybrid drive per kilometer of distance traveled in car’s real operating conditions range from 0.6 to 1.4 MJ/km, with lower values relating to the vehicle operation only with electric drive. The upper range applies to the internal combustion engine, which increases not only the energy expenditure in the TTW (Tank-to-Wheel) system, but also CO2 emissions to the environment. Based on the experimental data, the curves of total energy consumption per kilometer of the road section traveled were determined, showing a close correlation with the actual operating conditions. Obtained values were compared with homologation data from the WLTP test of the tested passenger car, where the average value of energy demand is 1.1 MJ/km and the CO2 emission is 23 g/km.

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EVALUATION OF ENERGY-EFFICIENT RETROFIT POTENTIAL FOR GOVERNMENT OFFICES IN INDIA

Architecture and Engineering ◽

10.23968/2500-0055-2021-6-2-03-17 ◽

2021 ◽

Vol 6 (2) ◽

pp. 03-17

Author(s):

Gazal Dandia ◽

◽

Pratheek Sudhakaran ◽

Chaitali Basu ◽

◽

...

Keyword(s):

Energy Consumption ◽

Total Energy ◽

Energy Efficient ◽

Energy Demand ◽

Energy Savings ◽

High Energy ◽

Payback Period ◽

Total Energy Consumption ◽

The Cost

Introduction: High energy consumption by buildings is a great threat to the environment and one of the major causes of climate change. With a population of 1.4 billion people and one of the fastest-growing economies in the world, India is extremely vital for the future of global energy markets. The energy demand for construction activities continues to rise and it is responsible for over one-third of global final energy consumption. Currently, buildings in India account for 35% of total energy consumption and the value is growing by 8% annually. Around 11% of total energy consumption are attributed to the commercial sector. Energy-efficient retrofitting of the built environments created in recent decades is a pressing urban challenge. Presently, most energy-efficient retrofit projects focus mainly on the engineering aspects. In this paper, we evaluate various retrofitting options, such as passive architectural interventions, active technological interventions, or a combination of both, to create the optimum result for the selected building. Methods: Based on a literature study and case examples, we identified various energy-efficient retrofit measures, and then examined and evaluated those as applied to the case study of Awas Bhawan (Rajasthan Housing Board Headquarters), Jaipur, India. For the evaluation, we developed a simulation model using EQuest for each energy measure and calculated the resultant energy savings. Then, based on the cost of implementation and the cost of energy saved, we calculated the payback period. Finally, an optimum retrofit solution was formulated with account for the payback period and ease of installation. Results and discussion: The detailed analysis of various energy-efficient retrofit measures as applied to the case study indicates that the most feasible options for retrofit resulting in optimum energy savings with short payback periods include passive architecture measures and equipment upgrades.

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The Photovoltaic Challenge

MRS Bulletin ◽

10.1557/s0883769400038239 ◽

1993 ◽

Vol 18 (10) ◽

pp. 18-25 ◽

Cited By ~ 7

Author(s):

Wim C. Sinke

Keyword(s):

Energy Consumption ◽

Solar Energy ◽

Total Energy ◽

Energy Demand ◽

Large Scale ◽

Fossil Fuels ◽

Total Energy Consumption ◽

Traditional Use ◽

Energy Supply System ◽

Energy Technologies

The term “solar energy” refers to a wide variety of techniques for using the energy available as sunlight. Well-known examples are active and passive thermal solar energy and photovoltaic solar energy but, strictly speaking, hydropower, wind energy, and biomass are also forms of solar energy. Today, only hydropower is used in significant quantities, covering approximately 6% of the world's energy demand. Traditional use of biomass, mainly in developing countries, accounts for more than 10% of the total energy consumption, but is sometimes left out of statistics because it falls outside the category of organized and commercial use.The global potential for solar energy is huge, since the amount of energy that reaches the earth's surface every year exceeds the total energy consumption by roughly a factor of 10,000. There are, however, various barriers to the large-scale use of solar energy technologies. Most technologies have in common that the power density of the generator is low; in other words, one needs large areas to generate significant amounts of energy. This is especially true for biomass, with typical conversion efficiencies (solar energy to chemical energy) of 1% or less. Further, many solar energy technologies have proved technically feasible, but have yet to be proved economically feasible. Last, but not least, the large-scale use of solar energy requires substantial modification of our global energy supply system, which is based largely on fossil fuels.

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Energy Efficiency Evaluation of Different Glazing and Shading Systems in a School Building

E3S Web of Conferences ◽

10.1051/e3sconf/201911103052 ◽

2019 ◽

Vol 111 ◽

pp. 03052 ◽

Cited By ~ 1

Author(s):

Mohammed Khalaf ◽

Touraj Ashrafian ◽

Cem Demirci

Keyword(s):

Energy Efficiency ◽

Energy Consumption ◽

Energy Demand ◽

Energy Performance ◽

Building Envelope ◽

School Building ◽

Total Energy Consumption ◽

Heating And Cooling ◽

Lighting Energy ◽

Energy Efficiency Evaluation

The energy conversations methods and techniques take a significant role in the energy performance of the buildings. Façade and shading systems are in continuous development, and recent studies are showing the importance of implementation of such systems to reduce energy consumption and enhance the effectiveness of the building performance. School buildings are mostly being used during daytime, hence, require active use of sunlight. A measure that is taken on a school building envelope can prevent overheating and overcooling and reduce the heating and cooling energy consumption but at the same time can increase the lighting energy consumption vice versa. Thus, it is necessary to optimise the energy required for climatisation of a building with lighting energy demand. The main aim of the paper is to provide analysis for façade and shading systems applied to a school building and study the effectiveness of it on energy consumption and conservation. The case study for this paper is a typical building project designed to be located in Istanbul, Turkey and has a traditional façade system which is clear double layer windows without any shading devices. The analyses of the energy efficiency of these systems will be presented. The different glazing types and shading systems alternatives will show the most efficient one to be used as some optimised alternatives for the systems. Findings indicate that proper glazing and shading systems can reduce the needed energy for heating and lightening and thus total energy consumption of a school building significantly.

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Thermodynamics of Heat Pump and Refrigeration Cycles

Entropy ◽

10.3390/e23050524 ◽

2021 ◽

Vol 23 (5) ◽

pp. 524

Author(s):

Alojz Poredoš

Keyword(s):

Energy Consumption ◽

Total Energy ◽

Heat Pump ◽

Total Energy Consumption ◽

Heating And Cooling

Energy consumption for heating and cooling in buildings and industry accounts for almost half of total energy consumption in all sectors [...]

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Energy Consumption and GGP in the OECD Countries: A Causality Analysis

Review of Economic and Business Studies ◽

10.1515/rebs-2017-0048 ◽

2017 ◽

Vol 10 (1) ◽

pp. 55-74 ◽

Cited By ~ 4

Author(s):

Mondiu T. Jaiyesimi ◽

Tokunbo S. Osinubi ◽

Lloyd Amaghionyeodiwe

Keyword(s):

Energy Consumption ◽

Total Energy ◽

Energy Demand ◽

Generalized Method Of Moments ◽

Electricity Consumption ◽

Secondary Data ◽

Least Square ◽

Causality Analysis ◽

Demand Model ◽

Total Energy Consumption

Abstract This study investigated the nature or direction of causality between GDP, electricity consumption and total energy consumption in the OECD. Secondary data was used while both the ordinary least square (OLS) and generalized method of moments (GMM) estimators were employed to test for causality in our model. Our result found the presence of a bi-directional causality between energy consumption and GDP for the total energy demand model and between electricity consumption and GDP for the electricity demand model. By implication, the bi-directional causality in our estimated models suggest that both energy consumption and GDP are important factors in economic development in the OECD. Thus, if misguided policy measures are made to reduce energy consumption it could have a detrimental effect on GDP which will slow down economic growth. A recommendation is for policy makers to concentrate on encouraging energy efficiency as a way to reduce energy and electricity consumption.

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Energy saving and reduction of emissions in heating residential buildings in Poland – potential and selected activities

E3S Web of Conferences ◽

10.1051/e3sconf/201911600044 ◽

2019 ◽

Vol 116 ◽

pp. 00044

Author(s):

Piotr Lis

Keyword(s):

Energy Consumption ◽

Total Energy ◽

Energy Demand ◽

Residential Buildings ◽

Air Pollutant ◽

Pollutant Emissions ◽

The European Union ◽

Single Family ◽

Total Energy Consumption ◽

Reduction Of Emissions

The communal and living sector, to the extent that it is the sub-sector of buildings with a majority share of residential buildings, on average, account for approximately 41% of total energy consumption in the European Union. Due to a large share in the total energy consumption, the buildings sector has a significant potential to improve the energy efficiency of existing buildings and thus significantly reduce emission of air pollutants. One way is through thermal modernization. The article presents the expected energy and environmental effects of measures which adjust the existing residential buildings to the requirements in force in Poland since 2021. It has been assumed that the energy demand for heating buildings will be limited to the level of 55 kWh/(m2year) for multi-family residential buildings and 60 kWh/(m2year) for single-family residential buildings. The calculations show that it is possible to reduce energy consumption for heating of residential buildings by over 70%, which will result in a reduction of the total air pollutant emissions from housing heating, in relation to the situation in 2011. The article indicates existing reserves in thermal modernization activities and related problems based on the analysis of selected parameters of residential buildings.

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