#ClimateActionNow
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Caribbean Island Nations Unite for Climate Action, Read how regional leaders are forging a united front ahead of COP28 to address climate challenges. Click Here
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Join over 120,500 others and sign the Plant Based Treaty - now! @plantbasedtreaty
🔸What is the Plant Based Treaty?
The Plant Based Treaty is urging individuals, groups, businesses and cities to endorse this call to action and put pressure on national governments to negotiate an international Plant Based Treaty as a companion to the UNFCCC Paris Agreement.
The treaty would put food systems at the heart of combating the climate crisis, aiming to halt the widespread degradation of critical ecosystems caused by animal agriculture, to promote a shift to more healthy, sustainable plant-based diets and to actively reverse damage done to planetary functions, ecosystem services and biodiversity.
For further insights into the significance of the Plant-Based Treaty and to sign up, visit www.plantbasedtreaty.org
💗 Please join Supreme Master Ching Hai to sincerely thank God Almighty for World Vegan, World Peace and souls’ Liberation 💗 Every day at 9:00 PM Hong Kong time 🙏
SupremeMasterTV.com
#SupremeMasterTV#PlantBasedTreaty#ClimateActionNow#SignAndAct#SustainableLiving#GlobalChange#EcoFriendlyChoices#ClimateActionLeadership#FoodSystemsRevolution#BiodiversityProtection#GreenFuture#HealthyPlanet#GoVegan#EnvironmentalAdvocacy#JoinTheMovement#CombatClimateCrisis#SustainableDiets#ProtectOurPlanet#PlanetOverProfit#ActForChange
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I Wish I Knew About THIS Earlier…
🔥 The Forum #Trailer:
rumble.com/v3wkpzy-if-onl…
"Will he be able to break us and from that moment on control our Lives?”
❓ Are we ready, as people, to confront him?
👇 Right now, #billions of #human fates, including our own, are in our hands. EVERYTHING depends on how conscious our #decisions and #actions will be.
❕Either we take responsibility for our lives, or he will start to #control our fates.
🌎 Find out who he is – join the International online Forum "Global Crisis. The Responsibility" on December 2, 2023, at 17:00 GMT:
🔴 youtube.com/live/8Ow6oNMoa…
🔴 creativesociety.com/global-crisis-…
#CreativeSociety #GlobalCrisis #Responsibility #December2 #Forum #Fall #autumn #November #People #fates #Sunday #sundayvibes #SundayMotivation #SundayService #ClimateActionNow #ClimateAction #climatecrisis
#CreativeSociety#GlobalCrisis#ThereisaWayOut#Forum#December2#autumn#ClimateActionNow#ClimateCrisis#ClimateAction#People#fates#sundayvibes#Sunday
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Lignik - world's first 100% #renewable #biosynthetic material for construction - 10 year long research culminating into $10,000 #Lignik house for the developing nations. #affordablehousing
#australia#renewable resources#renewable transition#green arrow#climateactionnow#climate change#house#homeless#pakistan#asian#melbourne#perth#sustainable development#sustainable solutions
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'We were in disbelief': Antarctica is behaving in a way we've never seen before. Can it recover? https://www.livescience.com/planet-earth/antarctica/we-were-in-disbelief-antarctica-is-behaving-in-a-way-weve-never-seen-before-can-it-recover?utm_source=dlvr.it&utm_medium=tumblr
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A Comprehensive Guide To Green Energy
In an era marked by environmental consciousness and sustainable living, the quest for clean, renewable energy sources has never been more urgent. Green energy, also known as renewable energy, offers a promising solution to mitigate climate change, reduce reliance on fossil fuels, and create a more sustainable future for generations to come. In this comprehensive guide, we delve into the concept of green energy, exploring its various forms, benefits, challenges, and the role it plays in shaping our energy landscape.
Understanding Green Energy
It refers to energy derived from naturally replenished resources that are environmentally friendly and have minimal impact on the planet. Unlike fossil fuels, which emit greenhouse gases and contribute to air pollution and climate change, green energy sources harness the power of natural elements such as sunlight, wind, water, and biomass to generate electricity and heat. These renewable resources are abundant and inexhaustible, and offer a cleaner alternative to conventional energy sources.
Types of Green Energy
Solar Energy: Solar energy is perhaps the most abundant and widely accessible form of energy. It involves harnessing sunlight using photovoltaic (PV) cells or solar thermal collectors to generate electricity or heat. Solar panels installed on rooftops, solar farms, and concentrated solar power (CSP) plants are examples of solar energy technologies that provide clean, sustainable power for homes, businesses, and communities.
Wind Energy: Wind energy harnesses the kinetic energy of the wind to generate electricity through wind turbines. These turbines, typically mounted on tall towers, capture the wind’s energy and convert it into rotational motion, which drives generators to produce electricity. Wind farms located on land and offshore are key contributors to the global wind energy capacity, providing a reliable source of clean power in windy regions.
Hydropower: Hydropower, also known as hydroelectric power, utilizes the energy of flowing water to generate electricity. It involves building dams or diverting river flows to capture the energy of falling or flowing water and convert it into electrical energy through turbines and generators. Hydropower plants range from large-scale dams and reservoirs to small-scale run-of-river installations, providing a flexible and renewable source of electricity.
Biomass Energy: Biomass energy is derived from organic materials such as wood, agricultural residues, and municipal solid waste. These biomass feedstocks are burned or converted into biogas through processes such as anaerobic digestion or gasification to produce heat, electricity, or biofuels. Biomass energy offers a sustainable alternative to fossil fuels and helps reduce greenhouse gas emissions by utilizing organic waste materials.
Geothermal Energy: Geothermal energy taps into the heat stored beneath the Earth’s surface to generate electricity and heat buildings. Geothermal power plants use steam or hot water from geothermal reservoirs to drive turbines and produce electricity, while geothermal heat pumps utilize the stable temperature of the ground for heating and cooling applications in homes and buildings. Geothermal energy is a reliable and environmentally friendly source of power, particularly in regions with high geothermal activity.
Benefits of Green Energy
Environmental Sustainability: Theseenergy sources produce minimal greenhouse gas emissions and pollution, making them environmentally sustainable alternatives to fossil fuels. By reducing reliance on coal, oil, and natural gas, green energy helps mitigate climate change, protect air quality, and preserve natural ecosystems.
Energy Security: Unlike finite fossil fuels, energy sources such as sunlight, wind, and water are abundant and widely distributed, reducing dependence on imported energy resources and enhancing energy security. By diversifying the energy mix and promoting local energy production contributes to a more resilient and decentralized energy infrastructure.
Economic Growth: The energy transition stimulates economic growth and job creation across various sectors, including renewable energy manufacturing, installation, and maintenance. Investments in renewable energy projects spur innovation, drive down costs, and create opportunities for sustainable development and prosperity.
Public Health Benefits: By reducing air and water pollution associated with fossil fuel combustion, green energy improves public health outcomes and reduces healthcare costs. Cleaner air and water contribute to lower rates of respiratory diseases, cardiovascular problems, and other health issues related to pollution exposure, benefiting communities and societies as a whole.
Energy Access: Such energy technologies offer solutions to expand access to electricity and clean cooking facilities in underserved and remote areas. Off-grid solar systems, mini-grids, and decentralized energy solutions empower communities to meet their energy needs sustainably, bridging the energy access gap and improving quality of life.
Challenges and Opportunities
While green energy holds immense potential, it also faces several challenges and opportunities for advancement:
Intermittency: One of the main challenges of renewable energy sources such as solar and wind is their intermittent nature. Energy storage technologies such as batteries and pumped hydro storage can help mitigate intermittency by storing excess energy generated during periods of high production and releasing it when demand is high.
Grid Integration: Integrating large-scale renewable energy sources into existing electricity grids requires upgrades to infrastructure, grid management systems, and regulatory frameworks. Smart grid technologies, demand response programs, and grid-scale energy storage are essential for optimizing grid stability and reliability in the transition to green energy.
Cost Competitiveness: While the costs of renewable energy technologies have declined significantly in recent years, they still face competition from conventional energy sources in terms of upfront capital investment and levelized cost of electricity (LCOE). Continued research, development, and policy support are needed to drive further cost reductions and enhance the competitiveness of energy.
Resource Availability: The availability of renewable energy resources varies geographically, with some regions having greater potential for solar, wind, or hydropower development than others. Strategic planning, resource assessment, and international cooperation are essential for maximizing the utilization of renewable energy resources and ensuring equitable access to clean energy worldwide.
Policy and Regulation: Policy support and regulatory frameworks play a crucial role in incentivizing investment in energy infrastructure, promoting renewable energy deployment, and phasing out fossil fuel subsidies. Governments, policymakers, and international organizations must enact supportive policies such as feed-in tariffs, renewable energy targets, carbon pricing, and emissions regulations to accelerate the transition to a low-carbon economy.
The Future of Green Energy
As the world strives to address the urgent challenges of climate change and environmental degradation, energy emerges as a beacon of hope and opportunity. The ongoing transition to renewable energy sources represents a paradigm shift in the way we produce, consume and think about energy. With continued innovation, collaboration, and commitment, we can harness the power of energy to create a sustainable future for all. In conclusion, energy holds the key to unlocking a cleaner, more sustainable energy future for the planet.
From harnessing the sun’s rays and harnessing the wind’s power to tapping into the Earth’s geothermal heat and harnessing the energy of flowing water, the possibilities are endless. By embracing green energy technologies, policies, and practices, we can mitigate climate change, promote economic development, improve public health, and foster a more equitable and resilient society. Together, let us embark on the journey towards a greener, brighter tomorrow.
#GreenEnergy#RenewableFuture#SustainableLiving#CleanEnergyRevolution#ClimateActionNow#RenewableRevolution
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A Tale of Two Crises: Climate Change and Julian Assange
In the modern world, two crises have captured global attention and stirred intense debate: the environmental catastrophe unfolding at the Great Barrier Reef due to climate change, and the legal battle faced by Julian Assange, the founder of WikiLeaks, fighting extradition to the United States. While seemingly disparate, these crises share underlying themes of secrecy, accountability, and the urgent need for action.
The Great Barrier Reef, often hailed as Australia's national treasure and a global wonder, is facing unprecedented threats from climate change-induced coral bleaching. Scientists, researchers, and environmentalists warn of the irreversible damage inflicted upon this fragile ecosystem, which supports a diverse array of marine life and plays a crucial role in the planet's ecosystem. The alarming statistics reveal a grim reality: over 50% of reef cover has disappeared since 1980, with projections indicating further declines in the coming decade. The urgency of addressing climate change and its impact on the Reef cannot be overstated, as its destruction carries profound implications for biodiversity, ecosystems, and coastal communities worldwide.
In parallel, the legal saga of Julian Assange highlights the complex interplay between transparency, freedom of the press, and government accountability. Assange's battle against extradition to the United States, where he faces espionage charges for publishing classified documents, has sparked intense debate over the limits of journalistic freedom and the rights of whistleblowers. While the legal intricacies of the case are significant, the broader implications for press freedom and government transparency are equally profound. Assange's plight underscores the importance of protecting those who expose truth and challenge authority, even in the face of powerful adversaries.
Despite their seemingly disparate nature, the crises of the Great Barrier Reef and Julian Assange share a common thread: the imperative to confront hidden truths and address systemic injustices. While Assange's case unfolds in courtrooms and legal arenas, the environmental crisis at the Great Barrier Reef unfolds in the natural world, where the consequences of inaction are equally dire. Both crises demand urgent attention and collective action, as they represent existential threats to the fabric of our society and the health of our planet.
In the final analysis, the real problem confronting humanity today is not just political or environmental—it is a crisis of secrecy, denial, and apathy in the face of overwhelming evidence. Climate change and government censorship are not isolated issues but interconnected manifestations of a deeper systemic failure to prioritize truth, accountability, and sustainability. To address these challenges, we must confront the uncomfortable truths they reveal and mobilize collective action to safeguard our planet and our freedoms for future generations.
#ClimateCrisis#EnvironmentalJustice#PressFreedom#Accountability#CollectiveAction#Urgency#Transparency#ClimateActionNow#SaveOurReef#FreeAssange#architecture#berlin#area#london#acme#chicago#puzzle#edwin lutyens#massimoscolari#oma
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Empowering Sustainability: Modernize Green Solutions Leads the Way
Discover how Modernize Green Solutions, a pioneer in sustainable energy solutions for over three decades, is transforming dreams into reality. Explore our tailored services and flexible financing options, and join us in paving the way towards a greener tomorrow.
#ModernizeGreenSolutions#EcoFriendlyHomes#GreenEnergyRevolution#RenewableFuture#ClimateActionNow#GreenTechSolutions#CleanEnergyTransition#SustainableHomeDesign#SolarSolutions#EnvironmentallyFriendly
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Plant the right trees in the right places.
When we plant the right trees in the right places, we support a cooler, greener and healthier future. Mitigating Climate Change and increasing biodiversity.
#Greencities#ClimateActionNow#sdg13#sustainable forest management#urban trees#urban environment#urban-rural linkages#green cities initiatives
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Hydrogen for Net Zero Emission
Hydrogen for Achieving Net Zero Emission Goals
Hydrogen can be used in a number of important ways and applications to help achieve the larger goal of reaching net zero emissions targets. Here are a few ideas for integrating hydrogen:
• Clean Power Generation:
Green Hydrogen Production: Use renewable electricity to electrolyze hydrogen, making sure that the process produces as little carbon dioxide as possible. Then, by substituting this green hydrogen for fossil fuels in the production of electricity, emissions from the electrical industry can be decreased.
Download - https://www.marketsandmarkets.com/industry-practice/RequestForm.asp
Benefits of Green Hydrogen for Net Zero Emission:
Carbon Neutrality: By generating hydrogen without the use of fossil fuels, green hydrogen production ensures carbon neutrality. Thus, from generation to use, the whole lifecycle of green hydrogen adds very little to atmospheric carbon dioxide concentrations.
Clean Power Generation: Conventional fossil fuel-based electricity sources can be replaced by using green hydrogen as a clean fuel. The aim of attaining net-zero emissions in the power sector is greatly aided by this shift, which results in a sharp decrease in greenhouse gas emissions.
Versatility Across Industries: The uses of green hydrogen as a sustainable fuel have applications not limited to the power sector; these include transportation, heating, and manufacturing.
Decarbonizing Industry:
Hydrogen for Industrial Processes: Use hydrogen as a substitute for fossil fuels in industrial processes such the production of ammonia, steel, and refining. In hard-to-abate sectors, this can drastically reduce carbon emissions.
Stands as a paramount imperative. Hydrogen takes center stage in realizing net-zero emissions, providing an innovative solution to the challenges of industrial decarbonization. By strategically employing Hydrogen for Net Zero Emission initiatives, industries can seamlessly transition away from carbon-intensive processes. The spotlight is on green hydrogen, meticulously produced through electrolysis with renewable electricity, offering a clean and versatile alternative. Its applications range from serving as a carbon-neutral feedstock for chemical production to delivering clean energy for high-temperature industrial processes. Embracing Hydrogen for Net Zero Emission goals becomes pivotal in reshaping industries, fostering environmental stewardship, and contributing to a cleaner, more sustainable industrial landscape.
Zero Emissions Transport:
Hydrogen Fuel Cell Vehicles: Transport networks should incorporate hydrogen fuel cell vehicles, especially for heavy-duty vehicles like buses, railroads, and trucks. Vehicles running on hydrogen produce just water vapor, which helps reduce transportation's emissions.
At the heart of this technology is hydrogen for net zero emissions, where fuel cell vehicles (FCVs) use hydrogen gas to generate power, with the sole result being water vapor emissions. This eco-friendly and sustainable replacement for conventional internal combustion engines highlights how important hydrogen is to achieving net zero emissions in the transportation industry.
Hydrogen Refueling Infrastructure: Establishing a robust hydrogen refueling infrastructure is integral to accelerating the adoption of hydrogen fuel cell vehicles and advancing the cause of Hydrogen for Net Zero Emission. The development of an extensive network ensures convenient access for consumers and promotes the widespread use of clean energy in transportation. Hydrogen for Net Zero Emission gains prominence as this infrastructure enables seamless refueling, overcoming a key barrier to the broader acceptance of hydrogen-powered vehicles. Governments and industries must collaborate to invest in and expand this critical infrastructure, fostering a sustainable ecosystem that propels the transportation sector towards a cleaner and more environmentally conscious future.Top of Form
Energy Storage and Grid Balancing:
Hydrogen as Energy Storage: As a medium for long-term energy storage, use hydrogen. When the availability of renewable energy is limited, excess renewable energy can be electrolyzed to create hydrogen, which can be stored and used to generate electricity again to maintain grid stability and balancing.
Heat and Power Applications:
Hydrogen in Heating Systems: Investigate the application of hydrogen in fuel cells or hydrogen boilers for residential and commercial structures. This can assist in decarbonizing the heating industry, which frequently uses fossil fuels.
Hydrogen Export:
Hydrogen as an Exportable Energy Carrier: The establishment of a comprehensive hydrogen strategy comprising infrastructure development, research and development activities, and supportive policies is necessary for the effective integration of hydrogen.
Governments, corporations, and academic institutions must work together to promote innovation, cut costs, and scale up hydrogen technologies for general use. We can achieve net zero emissions targets and build a more sustainable future by integrating hydrogen across several industries.
The potential for using hydrogen as an exportable energy source to promote net-zero emissions and meet global sustainability targets is enormous. Hydrogen presents a versatile alternative for lowering carbon footprints worldwide due to its ability to store and transmit clean energy across national borders. Countries can work together on large-scale production and exporting by utilizing hydrogen for Net Zero Emission projects, establishing worldwide collaborations to fight climate change. In order to achieve net-zero emissions globally, exporting hydrogen as a clean energy carrier acts as a catalyst for reducing emissions on a global scale and building an integrated, sustainable energy landscape.
Few recent examples that highlight the incorporation of hydrogen in achieving net zero emission goals:
Green Hydrogen for Power Generation:
Australia's Western Green Energy Hub: In Western Australia, the project intends to build a 50 gigawatt renewable energy hub. The production of green hydrogen will utilise a substantial amount of the electricity produced, aiding in the decarbonization of power generation and helping Australia achieve its net zero emissions targets.
Decarbonizing Industry:
Thyssenkrupp and RWE (Germany): Thyssenkrupp, a steel producer, and RWE, an energy provider, are working together on the WESTKÜSTE100 project. By substituting green hydrogen generated from offshore wind energy for fossil fuels in the steel industry, the effort seeks to decarbonize the sector.
• Zero Emissions Transport:
ZeroAvia (United Kingdom/United States): ZeroAvia is creating hydrogen-electric drivetrain technology for aircraft that emits no emissions. In an effort to offer a sustainable option for commercial flights and lower carbon emissions in the aviation industry, they have successfully tested hydrogen-powered electric aircraft.
Energy Storage and Grid Balancing:
EDF Renewables, EIH S.A., and Storengy (France): The goal of the power-to-hydrogen project "H2C," which is being developed by EDF Renewables, EIH S.A., and Storengy (France), is to store excess renewable energy as hydrogen. During times of high demand, the stored hydrogen can be transformed back into electricity, assisting with grid balancing and the integration of renewable energy sources.
Hydrogen Export:
Australia-Singapore Hydrogen Deal: Australia and Singapore have inked a deal for the export of hydrogen made from renewable resources. By producing and exporting green hydrogen from Australia's plentiful renewable energy resources, this cooperation seeks to assist Singapore's sustainable energy transformation.
These illustrations show how hydrogen is being used in real time by a variety of industries to meet net zero emission targets. They highlight hydrogen's potential to contribute to a sustainable and low-carbon future and show the increasing momentum and efforts being made to use it as a major enabler for decarbonization.
Read More- https://www.marketsandmarkets.com/industry-practice/hydrogen/hydrogen-net-zero-emission
#Hydrogen4NetZero#CleanHydrogen#RenewableHydrogen#GreenHydrogen#ZeroEmissionEnergy#HydrogenEconomy#ClimateActionNow#SustainableEnergy
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World leaders unite at #COP28 to triple renewable energy by 2030, ditch fossil fuels by 2050, and scale up clean alternatives. Let's drive the change for a sustainable future! 🌍
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🌊🐟 Mind-Blowing Natural Phenomenon! 🐟🌊 In Davao City & Samal Island, #Philippines, fish are creating a commotion in an unexpected manner – by beaching themselves in large numbers! 🎣 Local residents are seizing the opportunity, catching fish with their bare hands! 🤲 However, let's not forget that this unusual occurrence might be an indication of our planet's distress. 🌍🔥 Climate change is not waiting for a savior – it's a real and current issue, and it's up to us to take action. Understand the REALITY of climate changes to safeguard what we cherish. #NaturalEnigma #ClimateActionNow #ThriveNotJustSurvive 🌟✊
#ThriveNotJustSurvive#NaturalEnigma#ClimateActionNow#Philippines#ClimateCrisis#GlobalCrisis#CreativeSociety
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Pakistan's Battle with Climate Change Effects on Society and Human Welfare
Pakistan, where climates converge in a single dance from the K2 icy peaks to Karachi's coastal trance. In this varied weathered romance where the dance of economics is found in parallel. Surrounded by titans, east to west, economic climaxes, a symphony of relish.
A canvas painted with carbon's tale, where 250 million souls set their sail. Amidst billions to demand so high in the sky it soars, reaching the heavens nigh. A battle expands against climate's range of Pakistan, a warrior in the winds of change.
#PakistanClimateAction#ClimateChangeImpacts#SustainablePakistan#ClimateResilience#HumanWelfare#ClimateActionPK#EnvironmentalJustice#ClimateAdaptation#CommunityResilience#GreenPakistan#ClimateActionNow#SocialImpactPK#AdaptationStrategies#ClimateAwareness#ResilientCommunities#SocietyandClimate#ClimateChangeMitigation#WelfareInFocus#EcoFriendlyPakistan#ClimateActionForAll
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Animated Chart: The World’s Top 15 Carbon Emitters (1850-2022) https://www.visualcapitalist.com/cp/animation-top-15-carbon-emitters-1850-2022/?utm_source=dlvr.it&utm_medium=tumblr
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