Showing total 16 results

1. ELECTRICITY CONSUMPTION AND ECONOMIC GROWTH: EVIDENCE FROM NIGERIA.

Author

Mohammed, Badamasi Sani

Subjects

ELECTRICITY, ENERGY consumption, ECONOMIC development, GOVERNMENT agencies

Abstract

Copyright of Invest Journal of Sharia & Economic Law is the property of Invest Journal of Sharia & Economic Law and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

2. Estimating the Drivers of the Cost of Saved Electricity in Utility Customer-Funded Energy Efficiency Programs.

Author

Murphy, Sean and Frick, Natalie Mims

Subjects

ENERGY consumption, POWER resources, COST estimates, INDEPENDENT system operators, PUBLIC utilities, ELECTRICITY

Abstract

Energy efficiency programs funded by utility customers provide an electricity resource in most U.S. states, but their scale and cost of saving electricity varies significantly by state. In this paper, we explore the drivers of the cost of saved electricity in these programs with an econometric model and nearly a decade of data reported by efficiency program administrators. We found strong evidence for economies of scale and weak evidence for diseconomies of scale, which suggests that states with low levels of efficiency savings relative to retail sales can increase the size of their efficiency programs without large increases to the cost of saved electricity. We discuss examples of energy efficiency forecasting and potential modeling in light our econometric analysis and identify methodological improvements relevant to utilities and grid operators. This paper provides insights into the economics of customer-funded efficiency programs that will support regulators, utilities, and policymakers to utilize energy efficiency as a resource. [ABSTRACT FROM AUTHOR]

Published

2023

3. Automated Linear Function Submission-Based Double Auction as Bottom-up Real-Time Pricing in a Regional Prosumers' Electricity Network.

Author

Tadahiro Taniguchi, Koki Kawasaki, Yoshiro Fukui, Tomohiro Takata, and Shiro Yano

Subjects

LAGRANGIAN functions, ELECTRICITY, ENERGY consumption, POWER resources, ENERGY economics

Abstract

A linear function submission-based double auction (LFS-DA) mechanism for a regional electricity network is proposed in this paper. Each agent in the network is equipped with a battery and a generator. Each agent simultaneously becomes a producer and consumer of electricity, i.e., a prosumer, and trades electricity in the regional market at a variable price. In the LFS-DA, each agent uses linear demand and supply functions when they submit bids and asks to an auctioneer in the regional market. The LFS-DA can achieve an exact balance between electricity demand and supply for each time slot throughout the learning phase and was shown capable of solving the primal problem of maximizing the social welfare of the network without any central price setter, e.g., a utility or a large electricity company, in contrast with conventional real-time pricing (RTP). This paper presents a clarification of the relationship between the RTP algorithm derived on the basis of a dual decomposition framework and LFS-DA. Specifically, we proved that the changes in the price profile of the LFS-DA mechanism are equal to those achieved by the RTP mechanism derived from the dual decomposition framework, except for a constant factor. [ABSTRACT FROM AUTHOR]

Published

2015

4. Evaluation Index System and Evaluation Method of China’s Regional Potential for Electrical Energy Substitution.

Author

Li, Yanmei and Chen, Zeng

Subjects

*POTENTIAL theory (Mathematics), *ELECTRICAL energy, *ENERGY consumption, *ELECTRICITY, *ENERGY economics, *SUBSTITUTION (Economics)

Abstract

Electrical energy substitution is used as a national strategy to promote the energy consumption revolution, increase the proportion of electric energy in terminal energy consumption, increase the proportion of coal used for power generation in total coal consumption, increase the share of renewable energy in electricity consumption, and reduce air pollutant emissions; its importance in the national energy strategy is beyond doubt. Evaluating the potential of electrical energy substitution in various regions of China is an indispensable step in effectively carrying out electrical energy substitution. Only by clearly identifying the potential and characteristics of electrical energy substitution in each region can an effective electrical energy substitution strategy be formulated. This paper constructs a regional electrical energy substitution potential evaluation index system, based on comprehensive consideration of the influencing factors and regional differences in the potential of electrical energy substitution. The weight of each indicator is determined by a combination of cloud model and entropy method. The improved Technique for Order Preference by Similarity to an Ideal Solution (TOPSIS) evaluation model by connection degree is used to evaluate the potential of electrical energy substitution in each region. Finally, this index system and evaluation method are used to evaluate the potential of electrical energy substitution in twenty-five regions in the State Grid jurisdiction, and the evaluation results are analyzed; the effectiveness of evaluation index system and evaluation method are verified. The practical significance of this paper lies in providing important theoretical support for State Grid to implement electrical energy substitution according to local conditions. [ABSTRACT FROM AUTHOR]

Published

2018

5. Priority and delay constrained demand side management in real-time price environment with renewable energy source.

Author

Rasheed, Muhammad Babar, Javaid, Nadeem, Ahmad, Ashfaq, Awais, Muhammad, Khan, Zahoor Ali, Qasim, Umar, and Alrajeh, Nabil

Subjects

RENEWABLE energy sources, CONSTRAINTS (Physics), ENERGY economics, ENERGY consumption, ELECTRICITY, PRODUCTION scheduling

Abstract

In smart grid, integration of renewable energy sources such as solar and wind is a challenging task because of their intermittent nature. Most of the existing demand side management techniques are based on day-ahead pricing or time of use pricing that deviate from real-time pricing because of unpredictable energy consumption trends and electricity prices. This paper presents opportunistic scheduling algorithms in a real-time pricing environment based on optimal stopping rule. We classify different users and assign priorities based on energy demand. In order to minimize the electricity bill and appliance waiting time cost, we modify the first come first serve scheduling algorithm. Regarding comfort maximization, priority enable early deadline first scheduling algorithm is proposed, which schedules the appliances based on minimum length of operation time and priority constraints. Simulation results validate the effectiveness of the proposed algorithms in terms of electricity cost reduction and user comfort maximization. Copyright © 2016 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2016

6. Student Housing Energy Consumption: A Comparison of Chilled Water, Heating, and Electricity Use.

Author

Asmar, Mounir El and Tilton, Claire

Subjects

STUDENT housing, ENERGY consumption of buildings, CHILLED water systems, ELECTRICITY, ENERGY economics

Abstract

More than two thirds of the U.S. electricity consumption occurs in buildings, which also are responsible for about 40% of the world's CO2 emissions. Therefore, the “green” building movement has become widespread in an effort to reduce buildings’ impact on the resource use and the environment. The USGBC's LEED rating system in one such effort intended to recognize high performance buildings. One of the USGBC's objectives is to reduce building energy consumption, and this paper aims to test this energy-reduction hypothesis. The methodology includes investigating LEED-certified buildings and comparable non-certified buildings on a university campus, and measuring differences in their energy performance. Heating, cooling, and electricity data was collected from all campus buildings and their energy unit intensity (EUI) was calculated. The preliminary analysis shows LEED buildings are not displaying major differences in energy performance when compared to their non-LEED counterparts. This paper's findings make the case for more performance-based certifications, similar to the LEED O&M certification, which should be awarded based on actual energy performance of facilities as opposed to intended performance based on design data. [ABSTRACT FROM AUTHOR]

Published

2015

7. Physics-based simulation of the impact of demand response on lead-acid emergency power availability in a datacenter.

Author

Mamun, A., Wang, D., Narayanan, I., Sivasubramaniam, A., and Fathy, H.K.

Subjects

*LEAD-acid batteries, *UNINTERRUPTIBLE power supply, *ELECTRICITY, *ENERGY consumption, *ENERGY economics

Abstract

This paper uses a one-dimensional, physics-based model of a valve-regulated lead-acid (VRLA) battery to examine the impact of demand response on uninterruptible power supply (UPS) availability in a datacenter. Datacenters are facilities that provide services such as cloud computing, web search, etc. They are also large electricity consumers. An energy-efficient 15 MW datacenter, for instance, may pay $1 m per month for electricity. Datacenters often utilize VRLA batteries to ensure high reliability in serving their computational demand. This motivates the paper's central question: to what extent does the use of datacenter UPS batteries for demand response affect their availability for their primary purpose (namely, emergency power)? We address this question using a physics-based model of the coupled diffusion-reaction dynamics of VRLA batteries. We discretize this model using finite differences, and simulate it for different datacenter battery pack sizes. The results show that for a typical datacenter power demand profile, a VRLA battery pack sized for UPS functionality can provide demand response with only a minimal loss of UPS availability. [ABSTRACT FROM AUTHOR]

Published

2015

8. 100% renewables study has limited relevance for carbon policy.

Author

Procter, Robert J.

Subjects

*RENEWABLE energy sources, *CARBON taxes, *ENERGY economics, *ENERGY consumption, *ELECTRICITY

Abstract

This paper compares the work by Mark Jacobson et al. of 100% renewables to the rigors of long-run utility system planning. This comparison to integrated resource planning (IRP) allows comparison between assumptions used by Jacobson to results from real-world planning studies. Seven criteria are proposed for designing such a study. [ABSTRACT FROM AUTHOR]

Published

2018

9. Integrating labor awareness to energy-efficient production scheduling under real-time electricity pricing: An empirical study.

Author

Gong, Xu, Van der Wee, Marlies, De Pessemier, Toon, Verbrugge, Sofie, Colle, Didier, Martens, Luc, and Joseph, Wout

Subjects

*ENERGY consumption, *PRODUCTION scheduling, *ELECTRICITY, *ENERGY economics, *GENETIC algorithms

Abstract

With the penetration of smart grid into factories, energy-efficient production scheduling has emerged as a promising method for industrial demand response. It shifts flexible production loads to lower-priced periods to reduce energy cost for the same production task. However, the existing methods only focus on integrating energy awareness to conventional production scheduling models. They ignore the labor cost which is shift-based and follows an opposite trend of energy cost. For instance, the energy cost is lower during nights while the labor cost is higher. Therefore, this paper proposes a method for energy-efficient and labor-aware production scheduling at the unit process level. This integrated scheduling model is mathematically formulated. Besides the state-based energy model and genetic algorithm-based optimization, a continuous-time shift accumulation heuristic is proposed to synchronize power states and labor shifts. In a case study of a Belgian plastic bottle manufacturer, a set of empirical sensitivity analyses were performed to investigate the impact of energy and labor awareness, as well as the production-related factors that influence the economic performance of a schedule. Furthermore, the demonstration was performed in 9 large-scale test instances, which encompass the cases where energy cost is minor, moderate, and major compared to the joint energy and labor cost. The results have proven that the ignorance of labor in existing energy-efficient production scheduling studies increases the joint energy and labor cost, although the energy cost can be minimized. To achieve effective production cost reduction, energy and labor awareness are recommended to be jointly considered in production scheduling. [ABSTRACT FROM AUTHOR]

Published

2017

10. Technology assessment of the two most relevant aspects for improving urban energy efficiency identified in six mid-sized European cities from case studies in Sweden.

Author

Vassileva, Iana, Campillo, Javier, and Schwede, Sebastian

Subjects

*SMART cities, *ENERGY consumption, *CONSUMERS, *ELECTRICITY, *ENERGY economics

Abstract

The increasing population living in cities is leading to higher resource utilization, which strains the cities’ ability to focus on sustainability. Adoption of different technologies can transform cities into “smart cities” that utilize energy in a more efficiently. This paper presents results from a technology assessment tool developed together with six mid-sized European cities. The main areas of focus have been evaluated based on the cities’ priorities: transportation (both public and private) and consumers’ perspectives on the use of smart electricity meters. The use of electric vehicles in Sweden, and a techno-economic evaluation of biogas-derived biomethane and electricity use in public transportation have been analyzed. The main conclusions show an overall higher efficiency for biogas-derived electricity use in electric buses; a need for higher consumer engagement through more detailed information provision for both increasing EV market penetration and electricity savings; and a need to establish detailed technology assessments for successful technology adoption in cities. [ABSTRACT FROM AUTHOR]

Published

2017

11. Optimal operation, configuration and sizing of generation and storage technologies for residential heat pump systems in the spotlight of self-consumption of photovoltaic electricity.

Author

Beck, T., Kondziella, H., Huard, G., and Bruckner, T.

Subjects

*HEAT pumps, *PHOTOVOLTAIC effect, *ELECTRICITY, *ENERGY consumption, *ENERGY economics

Abstract

A rapid growth in interest in self-consumption of electricity generated by rooftop photovoltaic (PV) systems has been observed in recent years. This is fueled by decreasing levelized cost of electricity and feed-in tariffs for PV-systems as well as by increasing electricity prices, especially in the residential sector. Besides PV-battery systems, electrical heat pumps are a promising measure to increase self-consumption of electricity generated by distributed generation technologies in residential dwellings. However, little scientific research on the ability of heat pump systems to increase self-consumption of PV-electricity has been carried out so far. Therefore in this paper a mixed integer linear programing model for the optimal operation, system configuration and sizing for heat pump based house energy systems is developed and applied under different scenario conditions. The results show that the dimensioning of the heat pump is hardly influenced by the scenario assumptions, whereas the optimal sizing of PV is strongly dependent on the scenarios and in particular on the electrical load profiles. Over all scenario variations, the sizing of electrical and thermal storages is demand-driven and hardly any interdependencies with respect to optimal sizing can be observed between the different storage technologies. The availability of feed-in-tariffs generally yields large PV systems with high levels of self-sufficiency but low levels of self-consumption. Stricter feed-in-limitations lead to a reduction of the optimal PV systems size, but not to an increase in the optimal size of storage technologies. Over a wide range of base scenarios and scenario variations PV systems as well as additional flexibility options are part of the optimal system configuration, rendering it a promising and robust measure to decrease the operating cost of heat pump systems in the future. The results obtained in this study can provide valuable guidelines for manufacturers, installers and end-customers for the design of cost-effective self-consumption driven heat pump systems in the future. [ABSTRACT FROM AUTHOR]

Published

2017

12. A cradle to gate life cycle assessment of Turkish lignite used for electricity generation with site-specific data.

Author

Şengül, Hatice, Bayrak, Ferda, Aydınalp Köksal, Merih, and Ünver, Bahtiyar

Subjects

*ELECTRICITY, *LIGNITE, *ELECTRIC power production, *LIFE cycle costing, *ENERGY consumption, *ENERGY economics

Abstract

Coal, a major source for electricity generation in many regions, is expected to keep its position among global energy sources in the next two decades. There are significant life cycle impacts of coal used for electricity generation such as heavy metal emissions and acidification. Impacts related to the combustion phase have so far been the focus of attention and are better documented than other phases of the life cycle. Relatively less attention has been paid to impacts of mining and coal preparation processes at mining sites due to generation of large quantities of wastewater, particulate matter and heavy metal emissions, and the use of heavy machinery which is energy-intensive. To this date, there are only a few studies specifically addressing impacts associated with the mining and coal preparation phases in the open literature. To further advance our understanding of the scale of impacts during these phases, this paper presents a life cycle assessment of lignite from extraction phase to the delivery to the power plant based on analysis of high quality data from twelve lignite mining sites that serve major lignite power plants in Turkey. For impacts on land use, four indicators which include erosion resistance, mechanical filtration, groundwater replenishment loss and biotic production, are estimated. Following life cycle impact assessment, two environmental performance improvement alternatives that can be easily implemented in mining sites are evaluated to quantify the potential degree of improvement. These alternatives include dewatering of the slurry waste and recovery of coal, and using biodiesel mixed fuel and watering roads to reduce dust formation. The analyses show that 40% improvement can be realized for ecotoxicity potential to water category through simple changes in mining practices. [ABSTRACT FROM AUTHOR]

Published

2016

13. Effectiveness of High Reflective Roofs in Minimizing Energy Consumption in Residential Buildings in Iraq.

Author

Mohamed, Haider, Chang, Jae D., and Alshayeb, Mohammed

Subjects

HOME energy use, ELECTRICITY, AIR conditioning, INFRASTRUCTURE (Economics), ENERGY economics

Abstract

Residential buildings in Iraq consume 48% of the country's total electricity production. As residential air-conditioning usage increases, so does the demand on the country's electrical power infrastructure resulting in more frequent power cuts and rolling blackouts. This paper investigates the effectiveness of applying high reflective roofs to reduce the cooling loads of Iraqi houses and in turn electricity demand. Previous studies have shown high reflective roofs are capable of reducing cooling loads by about 45% compared to typical roof finishes for various climates. However, there are insufficient data for very hot and dry climates like that of Iraq. Findings from this study's preliminary energy simulations indicate that high reflective roofs can provide a significant reduction in cooling loads compared to the typical roof finishes of Iraqi houses therefore potentially reducing the energy demand on the country's energy infrastructure. [ABSTRACT FROM AUTHOR]

Published

2015

14. Time-of-use electricity pricing for industrial customers: A survey of U.S. utilities.

Author

Wang, Yong and Li, Lin

Subjects

*TIME-of-use pricing for electric utilities, *ELECTRICITY, *CONSUMERS, *ENERGY economics, *ENERGY consumption

Abstract

Time-of-use (TOU) pricing serves as a cost-effective way to realize electricity demand response, which aims at relieving peak demand. Customer participation is critical to the success of TOU pricing programs. To fulfill the potential of such programs, customers must be able to access electricity tariffs and understand their terms. This paper reports a survey of 43 TOU pricing programs targeting industrial customers offered by U.S. utilities. This work is inspired by and complements the Federal Energy Regulatory Commission survey of demand response in the electric power industry, highlighting the interpretation of key pricing components and specific characteristics of TOU tariff sheets collected from public sources. The case studies examine various industrial scenarios to predict electricity cost savings when customers are facing the transition from flat rates to TOU pricing. The analysis results show that the cost savings vary enormously, ranging from −72.0% to +82.6%, depending on specific utility programs and switching strategies involved. Such information is useful for customers to determine whether to participate in a TOU pricing program. Key findings and implications for industrial customers, utilities, and regulatory agencies are also discussed. [ABSTRACT FROM AUTHOR]

Published

2015

15. Model for electric load profiles with high time resolution for German households.

Author

Fischer, David, Härtl, Andreas, and Wille-Haussmann, Bernhard

Subjects

*HOUSEHOLDS, *ENERGY consumption, *ENERGY economics, *STOCHASTIC models, *ELECTRICITY

Abstract

Approximately 27% of the European energy consumption is caused by the domestic sector, where 19% of the end use energy demand is caused by electric devices. To investigate the factors at play, a stochastic bottom-up model for the generation of electric load profiles is introduced in this paper. The model is designed for investigating the effects of occupant behaviour, appliance stock and efficiency on the electric load profile of an individual household. For each activity of a person in the household, an electric appliance is used, and its electricity consumption is linked to measured electric load traces with a time resolution of 10 s. Probability distributions are incorporated for when and how often an appliance is operated. Duration of operation is given as probability density conditional on the start time. Shared use of an appliance by multiple persons is included in the model. Seasonal effects are considered by using changing probability sets during the course of the year. For validation, seven subgroups, which reflect typical household configurations, were formed and tested against measured field data from 430 households in 9 different cities across Germany. The results showed an accuracy of 91% and a correlation of up to 0.98. [ABSTRACT FROM AUTHOR]

Published

2015

16. Evaluation of Energy Price Liberalization in Electricity Industry: A Data-Driven Study on Energy Economics.

Author

Tabatabaei, Tayebeh Sadat and Asef, Pedram

Subjects

ENERGY economics, ELECTRICITY pricing, ENERGY consumption in factories, ELECTRIC lines, ENERGY consumption, CHI-squared test

Abstract

This study aims to evaluate the effects of price liberalization on energy consumption intensity, because price liberalization leads to improved productivity, energy consumption management, and consumption reform. Although the energy consumption of large-scale factories and industries has increased dramatically, and the energies losses have an increment in the power transmission lines, this policy can result in decreasing the energy consumption intensity due to the changes in consumption patterns. If there is a correlation between two variables, the price can be a valid variable to control cost and increase consumption efficiency. The augmented Dickey–Fuller (ADF) and the Chi-squared tests are also employed to investigate the maneuverability of these variables in the first-order contrast. In this case study, the energy consumption intensity response to price changes using the data gathered between 1988–2020, has gained a confidence interval of these reactions at 95%. The proposed vector autoregressive (VAR) model has forecasted the action and reaction of the end-user, to investigate the future shocks between 2020–2050, considering a new price shock, in the Iranian energy market for the first time. The research findings have shown that energy price liberalization leads to the energy intensity improvement, however, the end-user (shocking) reactions should be investigated to implement a more sustainable policy that eases the new energy price rises. [ABSTRACT FROM AUTHOR]

Published

2021