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Showing posts with the label GHG Emissions

ISO Standards used in GHG emissions and its control

ISO 14064 is an international standard developed by the International Organization for Standardization (ISO) to provide a comprehensive framework for quantifying, reporting, and verifying greenhouse gas (GHG) emissions and removals. This standard is part of the ISO 14000 family, which focuses on environmental management, and it helps organizations accurately account for their GHG emissions, essential for achieving climate-related goals. ISO 14064 is structured into three parts, each focusing on a different aspect of GHG management: 1. ISO 14064-1: Specification with Guidance at the Organization Level for Quantification and Reporting of GHG Emissions and Removals This part focuses on the principles and requirements for quantifying and reporting GHG emissions and removals at the organizational level. It covers: Establishing GHG inventories by identifying emission sources and sinks. Quantifying emissions and removals using appropriate methodologies and ensuring accuracy. Reporting guide...

What are the different Research studies conducted in Air Pollution ?

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Research on air pollution spans a wide range of disciplines, focusing on understanding the sources, effects, and solutions to this global problem. Here are some of the key areas of research being conducted on air pollution: 1. Source Identification and Attribution Emission Inventories: Developing detailed inventories of air pollution sources, such as vehicles, industrial plants, agricultural activities, and natural sources like wildfires and dust storms. Source Apportionment Studies: Identifying the contribution of different pollution sources (e.g., traffic, industry, domestic) to overall air pollution levels in specific regions. Satellite Monitoring: Using satellite data to track pollution plumes, identify hotspots, and monitor transboundary pollution movement. 2. Health Impact Studies Epidemiological Studies: Investigating the short-term and long-term health impacts of air pollution exposure, including respiratory, cardiovascular, and neurological effects. Vulnerable Populations:...

Status of Green House Emission at Global Level

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  Greenhouse gas (GHG) emissions vary significantly across different regions, countries, and continents, influenced by factors such as industrial activity, energy production methods, population, and economic development. Here’s a detailed breakdown of GHG emissions on a continent-wise basis: 1. Asia Global Share: Asia is the largest emitter, contributing over 50% of global GHG emissions. Key Contributors: China: The world’s largest emitter, primarily due to its vast industrial base and reliance on coal for energy. India: The third-largest emitter, with a growing industrial sector and high reliance on coal. Japan, South Korea, and Indonesia: Significant contributors, with emissions driven by energy consumption, industrial processes, and deforestation (in the case of Indonesia). Trends: Rapid urbanization, industrialization, and economic growth are key drivers of emissions, with efforts in renewable energy adoption and efficiency improvements beginning to take effect. 2. North A...

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 ...