Search or ask a question

What are the challenges faced by high schools and people due to no access to power from pv system?

Electric power system

Grid-connected photovoltaic power system

Best insight from top research papers

High schools and individuals face challenges due to the lack of access to power from photovoltaic (PV) systems. The barriers to the diffusion of PV systems include financial losses from overvoltage-induced PV curtailment, concerns about voltage quality in the power network, and the negative impact on distribution systems and protection systems . Additionally, the limited awareness of PV technologies in rural areas hinders the deployment of decentralized systems, with households preferring word-of-mouth and village-level awareness programs over conventional advertising methods . Overcoming these challenges requires effective strategies such as locally organized awareness campaigns, targeted product knowledge dissemination, and information on financing options and subsidies to promote the adoption of solar PV systems in high schools and among individuals in off-grid communities .

Answers from top 5 papers

PDF

Open Access

More filters

Papers (5)	Insight
Open access•Journal Article•DOI Barriers to the adoption of photovoltaic systems: The state of the art Emrah Karakaya, Emrah Karakaya, Pranpreya Sriwannawit - Show less +2 more 01 Sep 2015-Renewable & Sustainable Energy Reviews 216 Citations	High schools and individuals face challenges due to barriers in sociotechnical, management, economic, and policy dimensions hindering access to power from PV systems.
Proceedings Article•DOI Analysis of power grid performance due to PV integration 21 Dec 2022	Not addressed in the paper.
Journal Article•DOI Breaking into the photovoltaic energy transition for rural and remote communities: challenging the impact of awareness norms and subsidy schemes Prabhakar Yadav, Peter J. Davies, Sana Khan - Show less +2 more 01 May 2020-Clean Technologies and Environmental Policy 14 Citations	Not addressed in the paper.
Open access•Journal Article•DOI Electricity for All: Issues, Challenges, and Solutions for Energy-Disadvantaged Communities [Scanning the Issue] Claudio Canizares, Jatin Nathwani, Daniel M. Kammen - Show less +2 more 05 Sep 2019 9 Citations	Not addressed in the paper.
Proceedings Article•DOI Analysis of power grid performance due to PV integration Aayush Shrivastava, Ashish Kumar Singhal - Show less +1 more 21 Dec 2022	Not addressed in the paper.

My columns

Related Questions

What are the challenges encountered by students during Electrical Installation and Maintenance?5 answersStudents face various challenges during Electrical Installation and Maintenance (EIM) studies. Lack of public awareness about EIM prospects, poor perception, inadequate guidance, and educational facilities hinder student enrollment in EIM programs. Additionally, designing EIM projects requires practical knowledge not easily acquired through traditional methods, leading to a gap in knowledge transmission. Furthermore, ensuring electrical safety is crucial to prevent injuries and fatalities in industrial settings, emphasizing the need for hazard analysis, safety programs, and proper training. Moreover, the complexity of hazardous area installations poses risks if not maintained correctly, highlighting the importance of understanding Class I, Divisions, and Zones concepts for safe operations. These challenges underscore the necessity for improved awareness, practical training, safety protocols, and understanding of hazardous area classifications in EIM education.

What are the challenges faced by senior high school students?5 answersSenior high school students face various challenges in their education. These challenges include difficulties in understanding complex concepts like hybridisation in chemistry, struggles with modular distance learning during the pandemic, shortcomings in vocabulary learning, and coping with limited face-to-face classes due to COVID-19 restrictions. Specifically, students encounter issues such as poverty hindering access to education, conceptual difficulties in subjects like chemistry, adapting to new learning methods, and expressing ideas effectively. To address these challenges, it is crucial for educators to employ effective teaching strategies, provide necessary support, and create a conducive learning environment that caters to the diverse needs of senior high school students.

What are the current limitations and challenges faced by solar power?5 answersSolar power faces several limitations and challenges. One major challenge is the global capacity of solar thermal utilization, which is hindered by challenges and limitations in the solar water heating (SWH) industry. Another challenge is the low adoption rate of solar-wind hybrid technology, which suffers from overproduction and limited peak periods. Additionally, the integration of solar power into the existing electricity system is hindered by constraints in power transmission and distribution, including infrastructural constraints and demand-side factors. The large-scale integration of solar power also brings uncertainties and risks, such as unmet demand, electrical instabilities, and equipment damage. Furthermore, the commercialization of multi-junction solar cells (MJSCs) is limited by current challenges, such as fabrication procedures and material acquisition. These challenges highlight the need for addressing issues related to SWH technologies, solar-wind hybrid plants, power transmission and distribution, large-scale integration, and MJSC commercialization.

What are the challenges faced by senior high student?5 answersSenior high school students face various challenges. These challenges include the need to establish unity and camaraderie among students with different values and mindsets. Additionally, they may encounter institutional, situational, and dispositional obstacles in higher education, such as poor treatment from professors and lack of self-confidence. Furthermore, students may struggle with finding and using information effectively, which can hinder their success in college. In higher education, students also face cognitive challenges, becoming active learners, coping with reading materials, language barriers, time management, burden of assignments, and cultural differences. Lastly, students may face challenges related to student attitudes and perspectives, as well as changes in student culture over time.

What are some challenges that high school students face?0 answersHigh school students face various challenges in their academic and social environments. These challenges include difficulties in learning English speaking skills, implementing laws effectively for students with disabilities, navigating the complex social and academic environment for students with autism spectrum disorder (ASD), and struggling with reading comprehension in English as a foreign language.

What are the challenges of using solar panels and its benefit?4 answersSolar panels have both benefits and challenges. One of the main benefits is that they are a renewable energy source that produces no greenhouse effect and is almost pollution-free. They are also inexpensive and easy to apply, making them environmentally friendly. However, there are several challenges associated with solar panels. One challenge is the issue of overheating, which can reduce their efficiency. Another challenge is the low efficiency of conversion, with current achievable efficiency being approximately 30%. Additionally, there are safety concerns during installation, maintenance, and emergency situations, such as fires. Furthermore, the recycling of solar panels is currently inefficient, leading to environmental pollution and wasted valuable materials. These challenges need to be addressed to ensure the continued growth and sustainability of solar power.

See what other people are reading

What varieties of faults can be detected within the smart grid using PSO?

Particle Swarm Optimization (PSO) can be utilized to detect various types of faults within the smart grid. PSO can aid in identifying faults such as interruptions, surges, sags, anomalous electric currents, and cyber attacks. By leveraging PSO, fault diagnosis methods can be enhanced to address issues like faulty current flow, cyber attacks on fault information, and the classification of different fault components within the power system. The use of PSO in conjunction with machine learning techniques can significantly improve fault detection accuracy and efficiency, leading to better management of power system faults and ensuring the reliability and security of smart grid operations.What do fault analysis can offer?

Fault analysis offers various benefits in different fields. In the realm of power utility grids, fault analysis is crucial for ensuring system stability, understanding voltage and current magnitudes under faulty conditions, and designing protective devices like fuses and circuit breakers. In the context of DSL lines and modems, fault analysis devices can help detect interference, disconnect lines when unsynchronized, and perform spectral analysis to pinpoint issues promptly. Additionally, fault analysis interfaces provide a structured approach to accessing fault information, displaying correlations visually, and enabling different views for fault analysis on machines. Moreover, in transmission line fault analysis, utilizing multiresolution analysis with Gegenbauer filters can offer advantages like reduced computational effort and constant group delay, enhancing signal analysis accuracy. Overall, fault analysis methods and tools contribute to system reliability, efficiency, and accuracy in identifying and resolving faults.What are energy efficiency policies and strategies?

Energy efficiency policies and strategies are designed to reduce energy consumption and greenhouse gas emissions by promoting the use of less energy for the same level of output or service. These policies and strategies encompass a wide range of approaches, from legislative measures and regulatory frameworks to voluntary programs and initiatives aimed at encouraging more efficient energy use across various sectors, including industrial, residential, and public services. The evolution of EU energy efficiency policy over seven decades highlights the complexities and trade-offs involved in applying energy efficiency concepts in real-world scenarios, reflecting a need for policies that consider broader environmental and social issues beyond narrow efficiency metrics. Similarly, corporate energy policies, as seen in the case of a company focusing on steel, cast billets, and pipe products, demonstrate how organizational strategies can align with broader energy efficiency goals, emphasizing the role of senior management in promoting energy conservation and efficiency improvement within the enterprise. Strategic energy system development, including the conceptual design of renewable hydrogen energy systems, underscores the importance of integrating energy policies and strategies with broader criteria, such as sustainability and stability, to address the main difficulties and inconsistencies encountered in the energy sector. In India, the Bureau of Energy Efficiency (BEE) has played a crucial role in developing policies and programs aimed at reducing the energy intensity of the Indian economy, showcasing a comprehensive approach to implementing energy efficiency across various demand sectors. Efforts to address energy poverty in the European Union illustrate the intersection of energy efficiency and social issues, advocating for policies that not only reduce energy demand but also protect vulnerable populations from energy poverty and price fluctuations. The Government of India's interventions in enhancing energy efficiency in the industrial and household sectors highlight the use of economic instruments to close the energy efficiency gap, aiming to achieve optimal levels of energy efficiency. Urban planning and the spatial development of cities also play a critical role in achieving energy efficiency, with studies indicating that the urban form and planning can significantly influence energy production and consumption patterns. Finally, the success of India's lighting policies, including the Standards and Labelling (S&L) programme for Tubular Fluorescent Lamps (TFL) and LED bulbs, exemplifies the impact of targeted efficiency policies on market transformation and technological advancement in the lighting industry. Together, these contexts illustrate the multifaceted nature of energy efficiency policies and strategies, highlighting the importance of comprehensive, integrated approaches that address economic, environmental, and social dimensions of energy use.What’s the importance of energy efficiency strategies and policies?

The importance of energy efficiency strategies and policies is multifaceted, addressing both environmental and economic concerns on a global scale. Energy efficiency is recognized as a key policy strategy to reduce energy consumption and greenhouse gas emissions, which is crucial for mitigating climate change and achieving sustainable development goals. The implementation of such policies, as seen in India through the Bureau of Energy Efficiency's (BEE) Standards and Labelling (S&L) programme, has led to significant electricity savings and a reduction in CO2 emissions, highlighting the potential for energy efficiency measures to contribute to environmental sustainability. From an economic perspective, energy efficiency policies can stimulate economic growth by increasing final demand through the development of energy-efficient technologies. For instance, in Italy, scenarios simulating the impact of energy efficiency as a principal driver of decarbonization showed a substantial increase in final demand by 2030. This economic impact is further supported by the strategic development of energy systems that consider the complexities of energy policies, strategies, and education, aiming to overcome the main difficulties encountered in the energy sector. Moreover, energy efficiency strategies are instrumental in addressing energy poverty and ensuring long-term solutions that protect households from price fluctuations while reducing their environmental footprint. The comparative analysis of energy efficiency policies across the US, China, and India demonstrates the positive association between such policies and reduced energy intensity, emphasizing the role of the state in adopting legislative and regulatory frameworks to achieve energy efficiency goals. In summary, energy efficiency strategies and policies are crucial for environmental protection, economic growth, and social well-being. They offer a pathway to reduce energy demand, mitigate greenhouse gas emissions, stimulate economic development, and address energy poverty, thereby contributing to the broader objectives of sustainable development.Do a research about cloud computing?

Cloud computing is a significant area of research that offers efficient solutions for software development, data processing, and power system management. It combines distributed database and web server technologies to integrate resources virtually. Organizations and developers benefit from cloud computing's scalability and cost-effectiveness for software development. Cloud computing enhances power system operations by integrating data resources securely, improving efficiency and computer capabilities. Bibliometric analysis reveals a growing interest in cloud computing research, with collaborative efforts and interdisciplinary studies showing an annual growth rate of 18.28%. Key issues in cloud computing adoption include internal factors like top management support and external concerns such as regulations and standards, influencing the decision-making process for enterprises. Overall, cloud computing research spans various domains and continues to evolve, offering innovative solutions for modern technological challenges.What are the impacts of PV on transient voltage stability?

The integration of photovoltaic (PV) power plants into power systems significantly affects transient voltage stability. High PV penetration levels lead to reduced system inertia due to the displacement of conventional generators, impacting system oscillations and rotor angle stability. Additionally, the solvability of network equations becomes challenging with increased PV generation, resulting in deteriorating voltage stability. Furthermore, PV plants play a crucial role in providing dynamic voltage support during faults, as required by modern grid codes, but the injection of reactive power for voltage support can influence transient stability and other grid characteristics. These combined effects highlight the complex interplay between PV integration and transient voltage stability in power systems.What issues are students facing in the rental market?

International students face various challenges in the rental market, including discrimination, inadequate housing options, deceptive conduct, and exploitative practices. Discriminatory advertisements and landlords refusing accommodation based on ethnicity and nationality are prevalent issues faced by Iranian and Tajik students in Moscow. In Australia, international students encounter barriers accessing formal rental markets, leading them to insecure housing arrangements with risks of exploitation and poor living conditions. In the UK, post-graduate university student tenants in the private rented sector experience quality issues, service level reductions, and complex management procedures. Additionally, the influx of students can impact rent prices, creating competition in the rental housing market. Energy poverty among student tenants is also a concern, with barriers to energy efficiency improvements in rented properties.Why is protection system essential for ensuring the continued operation of electric power systems?

A protection system is crucial for maintaining the continuous operation of electric power systems. It serves as the primary defense mechanism to safeguard power distribution services and equipment from disruptions or abnormalities. The system ensures that faulty components are swiftly isolated from the network, allowing the rest of the system to function without interruptions. In modern power systems, the protection system, along with monitoring and control functions, forms a critical part of the Supervisory Control and Data Acquisition (SCADA) system, enhancing the system's resilience following contingencies. By promptly disconnecting faulty equipment, the protection system plays a vital role in maintaining the reliability and stability of the power grid.How much energy would a camper consume in 1 year?

A camper's energy consumption can vary based on factors like activities and location. For instance, a study in Saudi Arabia analyzed the economic feasibility of using PV panels with battery backup for a camping site, showing that larger PV systems are preferred over smaller ones for energy generation. Additionally, research on children's energy balance during summer camp found that energy expenditure was higher during such activities, leading to a more negative energy balance compared to school time. Moreover, a project by the U.S. Army successfully demonstrated a reduction in fuel consumption at base camps using COTS technologies for power generation. Considering these factors, a camper's annual energy consumption would depend on the specific activities, location, and energy sources utilized.What are the most common causes of fire incidents in Gauteng, South Africa?

The most common causes of fire incidents in Gauteng, South Africa, are varied. Informal settlements (ISs) in South Africa are high-risk environments for fires, with approximately 40% of fire causes classified as 'undetermined'. Energy poverty in under-resourced communities contributes significantly to burn injuries, with the use of solid fuels and flammable hydrocarbons in inefficient appliances leading to devastating consequences, especially for children. Additionally, the prevalence of fires in South Africa, particularly in regions like Gauteng, is influenced by factors such as climate change, increased air temperatures, and events like La Nina, which have a marked effect on fire activity. It is crucial to address these multifaceted issues through improved documentation processes after fire events, better access to safe and sustainable energy sources, and targeted support for alternative energy technologies to prevent fire incidents effectively.What are the current state of knowledge on renewable energy integration?

The current state of knowledge on renewable energy integration into power systems highlights several key areas of focus, including challenges, technological advancements, and strategies for effective management. Renewable energy sources (RES) are rapidly growing due to energy security requirements and environmental concerns, yet they pose significant challenges to power grid operation, necessitating the formulation of appropriate rules and regulations for their integration. The integration of RES into regional networks involves various topologies of renewable energy converters, with semiconductor network inverters playing a crucial role in integrating DC power from alternative sources into centralized regional AC networks. Large-scale integration of renewable energy introduces power quality problems such as frequency fluctuations and harmonics, with studies focusing on stabilizing frequency issues and improving frequency profiles. Peer-to-peer (P2P) energy trading emerges as a next-generation energy management mechanism to address the unreliability of RES, employing game-theoretic approaches and optimization to find optimal coalitions of prosumers. Research also explores grid codes, fault-ride through criteria, and the performance evaluation of grid-connected systems with different maximum power point tracking (MPPT) controllers, highlighting the importance of optimal siting and sizing of wind turbines and the integration of smart plug-in hybrid electric vehicles (PHEVs). Innovative methodologies are proposed to minimize the impact of intermittency and uncertainty of RES output, introducing concepts like value storage as an alternative to energy storage, which enables demand side management through load shifting. Finally, studies on the Indian power sector demonstrate the capability of systems to operate reliably with high penetration of non-fossil-fuel-based capacity, emphasizing the importance of considering intermittency and energy content in planning for increased RES integration.