International Journal of Advances in Agricultural Science and Technology
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SUSTAINABLE RIVER ENGINEERING
Full text linkSustainable River engineering is an innovative approach that integrates engineering practices with ecological, social, and economic considerations to manage and restore river systems. Unlike traditional methods, which often prioritize infrastructure and short-term solutions, sustainable river engineering emphasizes resilience, biodiversity, and the preservation of natural processes. This approach involves using eco-friendly materials, restoring natural hydrological patterns, and implementing adaptive management strategies to address challenges such as flooding, erosion, habitat loss, and water quality degradation. By balancing human needs with environmental sustainability, sustainable river engineering promotes long-term benefits, including enhanced ecosystem health, improved water management, and reduced vulnerability to climate change. This abstract explores the principles, materials, and applications of sustainable river engineering, highlighting its potential to foster harmony between human activities and the natural environment
SEISMIC ISOLATION SYSTEMS
Full text linkIEEE Seismic isolation systems are engineering solutions designed to protect structures from the damaging effects of earthquakes by decoupling the building from ground motion. These systems reduce the seismic energy transmitted to the structure, enhancing safety and minimizing damage. Key types of seismic isolation systems include base isolation (using elastomeric bearings, sliding bearings, and hybrid systems), damping systems (such as viscous and friction dampers), shock absorption systems, and energy dissipation systems. These systems improve building stability, extend the lifespan of structures, and reduce repair costs. Seismic isolation is widely applied in high-rise buildings, bridges, critical infrastructure, and historical structures to ensure safety and operational continuity during earthquake
CLIMATE-RESILIENT URBAN PLANNING
Full text linkClimate-resilient urban planning involves the design and development of cities that can effectively adapt to and mitigate the impacts of climate change. This approach prioritizes strategies for reducing greenhouse gas emissions (mitigation) and preparing for extreme weather events, rising sea levels, and long-term climate shifts (adaptation). Key principles of climate-resilient planning include the integration of green infrastructure, energy-efficient buildings, sustainable transportation, and advanced water management systems. Additionally, equitable urban design ensures vulnerable populations are included in decision-making processes, while disaster risk reduction measures improve urban safety and resilience. Notable examples from cities like Rotterdam, Singapore, New York City, and Copenhagen demonstrate the potential of these strategies in addressing climate challenges. However, successful implementation requires overcoming challenges such as funding, political will, and the need for data-driven decision-making. Ultimately, climate-resilient urban planning is essential for fostering sustainable, adaptable cities that enhance the quality of life and environmental well-being for future generations.he facade of a building plays a critical role in its energy performance, visual appeal, and sustainability. This paper explores the latest advancements in smart and sustainable building facades, integrating technologies such as smart materials, adaptive systems, and energy-efficient design strategies. These innovations aim to reduce environmental impacts, optimize energy consumption, and improve occupant comfort. The research highlights key challenges, solutions, and future trends in the field
SMART GRID INTEGRATION WITH CIVIL INFRASTRUCTURE
Full text linkThe integration of smart grids with civil infrastructure is a transformative approach to creating more efficient, resilient, and sustainable energy systems. Smart grids leverage advanced communication, automation, and sensor technologies to optimize the generation, distribution, and consumption of electricity. When combined with civil infrastructure, such as transportation systems, buildings, and water management facilities, the result is an interconnected, intelligent network that enhances operational efficiency, reduces energy waste, and improves the overall performance of urban environments. This integration facilitates real-time monitoring, predictive maintenance, and demand-response strategies, enabling more effective management of energy resources. The synergy between smart grids and civil infrastructure also opens avenues for the development of "smart cities," where energy and infrastructure systems work cohesively to support sustainable urban growth
ADVANCED EARTHQUAKE ENGINEERING
Full text linkAdvanced Earthquake Engineering focuses on understanding and mitigating the risks associated with seismic activities. This field encompasses the study of ground motion, structural response, and the development of innovative design methodologies to enhance resilience in buildings and infrastructure. Recent advancements include the integration of computational simulations, seismic hazard analysis, and performance-based design approaches to predict and withstand earthquake impacts. Emerging technologies such as base isolation systems, energy-dissipating devices, and smart materials are revolutionizing the design of earthquake-resistant structures
OPTIMIZATION OF CONSTRUCTION SUPPLY CHAINS
Full text linkThe optimization of supply chains in the con-struction industry is crucial for enhancing operational effi-ciency, reducing costs, and ensuring timely project delivery. This research investigates strategies and technologies that can improve supply chain performance in construction projects. It highlights the importance of efficient demand forecasting, inventory management, and supplier coordination to mitigate delays and shortages of critical materials. The study also em-phasizes the integration of advanced technologies such as Ar-tificial Intelligence (AI), the Internet of Things (IoT), and data analytics to improve decision-making, monitor supply chain performance in real-time, and predict potential risks. Addi-tionally, the research explores the role of automation, lean construction principles, and sustainable practices in enhanc-ing supply chain management
A Study on employee satisfaction at Sujala pipes pvt. ltd., Nandyal
Full text linkEmployee satisfaction is a factor in motivation, selection, on a good achievement in the work place. The purpose of the study is to analyze employee satisfaction, retention staff levels, and organization success.•The research purpose of this study investigations the impact of employee satisfaction on performance on a dissatisfaction among employees, employee performance and organizational commitment.•Data is collected from both quantitative and qualitative data collection and analysis methods.•The findings of the study reveal that within the organization, most of the employees are satisfied with their jobs but remain dissatisfied with their work and conditions.•Employee satisfaction is a critical factor influencing productivity, retention, and overall workplace morale .competitive and reduced culture of inclusivity and support, and feedback, employee well-being leads organization success
`A PROJECT REPORT ON FUNDS FLOW STATEMENT AT DALMIA CEMENT BHARAT LIMITED IN CHINNA KOMERLA
Full text linkA study on” FUNDS FLOW STATEMENT at DALMIA CEMENT” at “CHINNA KOMERLA”. The main objective of this study is to analyse the financial position of the company. It is the process of identifying the financial strength and weakness of the firm properly establishing relationship between the item of balance sheet and profit and loss account. The details regarding the history and finance details of the company were collecting through discussion with the company officer’s, secondary data are based on the annual reports 2020-2024
Commodity Futures and Their Role in Agricultural Sector Hedging
Full text linkThe significance of futures and options contracts for the control of price risk in the agriculture industry is examined in this article. There is a pressing need to establish market mechanisms that would enable agricultural producers to plan, market, and hedge their output in light of the global volatility in the prices of agricultural goods and inputs. Examining the use of commodity derivatives in agricultural hedging techniques is the primary goal of this article. Research suggests that the agricultural industry may greatly benefit from developing futures and options commodities exchanges. These exchanges could use futures and options contracts to mitigate the risk of negative price fluctuations for agricultural inputs and outputs. Topics covered: commodity derivatives, futures, options, and commodity exchanges
INTERNET CONNECTED BRIDGES AND TUNNELS
Full text linkInternet-connected bridges and tunnels leverage IoT sensors, AI analytics, and real-time communication to enhance safety, efficiency, and sustainability. These smart structures enable proactive maintenance, traffic management, and environmental monitoring. Despite challenges like high costs and cybersecurity risks, they represent a transformative step in sustainable infrastructure development amidst urbanization and climate challenges