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Showing posts with the label Best Practices

Self-Sustainable Practices at Residential, Commercial, Industrial Life style

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Self Sustainability , the term is defined as the system that requires less input of energy or zero from the electricity grid and water and green vegetables that are grown in a closed loop with zero dispose of waste or 100% utilization of the residue. This methodology can be described as self sustainability which will be having less or zero emissions in the surroundings areas. Developing a self sustainable house is possible by focusing on the following aspects:  Building Envelop lighting system HVAC system Water supply and utilization Renewable Energy Electrical System Sustainable Transportation Zero disposal of domestic or commercial waste Implementing self-sustainability in daily life Implementing self-sustainability in daily life involves practices that reduce reliance on external resources and promote a more self-sufficient lifestyle. This can include: Grow Your Own Food: Grow green vegetables by setting up a small rooftop garden by organic methods which also helps as a "Coo

Best practices to be implemented under Scope 1, 2 and 3 for Renewables

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Implementing some of the best practices in the renewable energy sector under Scope 1, 2, and 3 emissions can contribute to sustainability and cover the environmental goals. Below are some of the best practices that can be implemented to minimize the carbon emissions: Scope 1: Direct Emissions 1. Renewable Energy Integration As renewable generating plants like solar, wind, hydro, and biomass are producing electricity is renewable, operation and maintenance activities in the respective sector, replace or reduce reliance on fossil fuels. Invest more in technologies like bio-fuels, Organic waste to energy, and other energy storage systems which can lead to sustainability 2. Energy Efficiency Adopting more energy-efficient technologies and practices in minimizing overall energy consumption. Periodic maintenance and upgradation can improve the efficiency of the system. 3. Carbon Capture and Storage (CCS) Exploring more options and invest in carbon capture technologies to reduce or eliminate

Preparation of Junction Box Replacement in the Solar modules

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There is a massive solar modules installations are taking place at gigawatt (GW) scale across the globe and india is the thrid largest solar energy installation in the world reaching to a capacity of 81.8 GW as on mar’ 2024 as per CERC India (Central Electricity Regulatory Commission), focusing on increase in the renewable energy installation to minimise the carbon emissions and climate change. Table of Contents: Parts of the Solar Module Key functions of Junction Box Common Reasons for Junction Boxes Failures Parts of Solar Module Aluminium Frame Tempered Cover Glass Solar Cell Encapsulation foil Back Sheet Junction Boxes A junction box is fixed at the backside of the solar panel which is the central point where cables are interconnected with all solar cells connected in series and parallel to the electrical systems that is pre-installed with silicon adhesive. It protects from the environment.  Key functions of Junction Box Connecting the solar cells as a whole into a PV panel with