According to Ministry of New and Renewable Energy (MNRE) as of September 2021, the renewable energy sources only constitute about 38% and large hydropower plants produce 14.35% of the whole demand in India which is ve...
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ISBN:
(纸本)9789819748945
According to Ministry of New and Renewable Energy (MNRE) as of September 2021, the renewable energy sources only constitute about 38% and large hydropower plants produce 14.35% of the whole demand in India which is very meager. It is important to find other methods of power generation to compensate for the demand. According to Tamil Nadu Generation and Distribution Corporation Limited (TANGEDCO), the power demand crosses the 47,905.87 MW mark, and to satisfy the energy needs of the State has a conventional installed capacity of 16,034.58 MW and non-conventional installed capacity of 15,871.29 MW. Non-renewable energy sources such as fuel, gasoline, and oils are referred to as "conventional installation" in this context. Renewable energy sources, often known as non-conventional installation, are resource that is renewed by natural phenomena on a constant basis. It is necessary to increase the utilization of renewable energy in every possible way. The pollution created by the non-renewable energy sources is another major problem to consider, the emission created by the vehicles increases day by day, but the environment can't eradicate it, government is also initiating steps to reduce the pollution by implementing Bharat stage VI. In order to overcome the above problem, this paper proposes an integrated renewable energy sources such as solar and wind energy to reduce the energy demand, control and monitor the pollution near the coastal area. The implementation of proposed work in coastal area is due to huge potential for wind energy production. This proposed system planned to use hybrid sources, sensors and controller with Internet of Things (IoT) enabled technology for proper monitor and control. After the study of environment data near the coastal area, the hybrid system which includes solar and wind has been chosen and installed. In the same area the sensors were included for sensing the pollution content. For monitoring a mobile app was developed for user purpose.
As a level of smart city construction, ecological environment plays an important role. This article takes the campus river pollution control in the construction of a smart city as an example to study the ecological de...
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ISBN:
(纸本)9783031060526;9783031060533
As a level of smart city construction, ecological environment plays an important role. This article takes the campus river pollution control in the construction of a smart city as an example to study the ecological design strategy. It aims to discover the limitations of current river monitoring and governance methods by analyzing the current situation and governance methods of the Xunsi River, and propose a future smart city river water quality monitoring system, combining blockchain technology with the monitoring system, and using blockchain Technology makes monitoring data open and transparent, and strengthens the supervision of river ecological protection by the government and other relevant departments. At the same time, with the help of data visualization design, people's attention to water resources and environmental protection are enhanced, and people are encouraged to actively participate in the action of protecting rivers, so as to jointly build green and harmonious communities and promote the sustainable development of smart cities in the future.
This study explores how advanced technology has revolutionized the use of drones for forest fire surveillance. This research study explores the historical development of Unmanned Aerial Vehicles (UAVs) in forest monit...
This study explores how advanced technology has revolutionized the use of drones for forest fire surveillance. This research study explores the historical development of Unmanned Aerial Vehicles (UAVs) in forest monitoring with a focus on control systems and detection algorithms. The drone's capabilities are improved via telemetry integration, sophisticated autopilot systems, and an emphasis on accuracy, autonomy, and real-time communication. An analysis of object recognition, anomaly detection, and environmentalmonitoring algorithms in detail demonstrates how important a role these algorithms play in spotting dangers like forest fire. This study presents successful implementations through illustrative case studies, discusses obstacles, and lays forth future plans for utilizing drone technology for the forest fire surveillance in environmental conservation initiatives.
This paper proposes a real-time monitoring system for offshore water environmental quality. This project combines LoRa wireless communication technology, sensor technology, Web technology and WeChat application techno...
This paper proposes a real-time monitoring system for offshore water environmental quality. This project combines LoRa wireless communication technology, sensor technology, Web technology and WeChat application technology to achieve long distance and high anti-interference ability. The system can collect, process, transmit, store, share, display, manage and control the environmental quality of offshore waters in real time. The system can be used for coastal water quality monitoring, fishery aquaculture monitoring and aquaculture monitoring. The experimental research proves that the system can realize the real-time, intelligent and long-term monitoring of offshore water environmental quality. This method can solve the problems of short observation distance, high cost, flexible deployment and weak anti-interference ability in Marine real-time monitoring.
To meet the growing economy and environmental protection requirements of desulfurization, developed a set of operation and monitoring platform of intelligent desulfurization. The platform is developed based on Python,...
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ISBN:
(数字)9798331528096
ISBN:
(纸本)9798331528102
To meet the growing economy and environmental protection requirements of desulfurization, developed a set of operation and monitoring platform of intelligent desulfurization. The platform is developed based on Python, use the MVC architecture as the software architecture of the platform, and use MySQL to manage data. The platform communicates real-time data with the desulfurization equipment through the Modbus Tep communication protocol and the TDI communication interface. The visualization development of the platform is based on PyQt and Web configuration software, using PyQt to design the GUI of platform software and use Web configuration software to carry out intelligent analysis of data, the communication between the frontend and backend is through the WebSocket communication protocol. The platform integrates funcitions such as user management, real-time monitoring, energy consumption intelligent analysis, desulfurization intelligent optimization and database management. The platform is developed based on Python,compared with other programming languages, the rich standard library and third-party library can effectively and quickly help us solve most of the problems encountered in the development, so as to meet the requirements of intelligence, economy and environmental protection of intelligent desulfurization.
distributed photovoltaic power generation assumes a pivotal role in the current national economic development, environmental protection, energy security, and social progress. In line with the requirements of “carbon ...
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ISBN:
(数字)9798350389579
ISBN:
(纸本)9798350389586
distributed photovoltaic power generation assumes a pivotal role in the current national economic development, environmental protection, energy security, and social progress. In line with the requirements of “carbon peak and carbon neutrality” of the state, the State Grid has formulated an action plan to support the grid connection of distributed photovoltaic power and accelerate the upgrading of the power grid to an energy internet. This paper has developed a smart service terminal for distributed photovoltaic users. Through drawing inspiration from relevant literature, technologies such as remote control of grid-connection switches, the power internet of things, intelligent voice interaction technology, and AI image recognition technology have been organically integrated into the distributed photovoltaic user service equipment. The user smart service terminal device has achieved the anticipated research objectives, realized intelligent online monitoring and management of the safe operation of distributed photovoltaic grid connection, enhanced the management level of new user services, and provided technical support for the State Grid Corporation to construct a new power system with new energy as the main body.
In this paper, an intelligent remote monitoring system based on Internet of Things (IoT) technology is proposed for real-time monitoring of the operating status of PVT and heat pump combined system. Through the integr...
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ISBN:
(数字)9798350373646
ISBN:
(纸本)9798350373653
In this paper, an intelligent remote monitoring system based on Internet of Things (IoT) technology is proposed for real-time monitoring of the operating status of PVT and heat pump combined system. Through the integrated sensor network, the system collects key parameters such as ambient temperature, solar radiation intensity, water temperature, current and voltage in real time, and transmits them to the cloud platform through the wireless communication module. The simulation results show that compared with the traditional control system, the intelligentmonitoring system can improve the energy conversion efficiency and reduce energy waste. In addition, the system has a remote monitoring function, users can view the system status at any time through mobile devices, receive fault warning, and realize the centralized management of distributed energy systems. This research provides a new solution for the intelligent and networked management of PVT and heat pump combined system, which has important engineering application value and market promotion potential.
In contrast to traditional classroom settings, online teaching leverages network technology to facilitate instruction. A pressing challenge in this domain is the effective monitoring of students’ engagement levels to...
In contrast to traditional classroom settings, online teaching leverages network technology to facilitate instruction. A pressing challenge in this domain is the effective monitoring of students’ engagement levels to optimize learning outcomes. Addressing this, the present study introduces a deep learning-based online classroom system equipped with a learning status monitoring feature. This system employs image processing techniques and software development to capture and analyze students’ postures during online sessions, thereby providing educators and guardians with comprehensive insights into students’ engagement levels.
This project introduces a comprehensive home automation system leveraging Wi-Fi connectivity and ESP32 micro controllers, aimed at enhancing modern living through seamless automation and user-centric design. The backg...
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ISBN:
(数字)9798350318609
ISBN:
(纸本)9798350318616
This project introduces a comprehensive home automation system leveraging Wi-Fi connectivity and ESP32 micro controllers, aimed at enhancing modern living through seamless automation and user-centric design. The background emphasizes the fusion of IoT technology with home automation, highlighting Wi-Fi's significance in enabling remote monitoring and control of household devices. Methodologically, the project integrates relay modules and DHT11 sensors, orchestrated through a user-friendly smartphone application. Results demonstrate successful implementation and testing, showcasing functionality, reliability, and user-friendliness. Real-time environmentalmonitoring and remote appliance control fulfill the objectives of enhancing home comfort, convenience, and energy efficiency. The conclusion underscores the project's contribution to advancing smart home technologies, offering users a scalable and customizable solution. Future research opportunities include enhancing system capabilities and addressing security and privacy concerns.
The most pressing challenges in the development of fossil fuel energy resources are their high value and scarcity. Therefore, renewable energy achieved through the mismanagement of natural resources is one of the most...
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