EquiH2: “Hydrogen for a Sustainable Tommorrow” campaign – Highlight Green Hydrogen’s Alignment with the SDGs

Real-World Success Story: India’s First Pure Green Hydrogen Plant in Jorhat, India

Project Name: “Jorhat H2: Pioneering India’s Green Hydrogen Future”

Objective: Demonstrating how Green Hydrogen directly aligns with multiple Sustainable Development Goals (SDGs) and enhances community sustainability.

Project Overview:

The commissioning of India’s first pure green hydrogen plant in Jorhat, Assam, is a pioneering initiative that exemplifies the transformative potential of green hydrogen. This visionary project showcases how green hydrogen can act as a catalyst for positive change, directly contributing to the achievement of various SDGs while enhancing community well-being and sustainability.

Cutting-Edge Electrolysis Technology:

The plant employs cutting-edge Anion Exchange Membrane (AEM) technology for the electrolysis of water into hydrogen and oxygen, ensuring efficient and eco-friendly hydrogen production.

Impressive Hydrogen Capacity and Purity:

Boasting a remarkable daily capacity of 10 kg of hydrogen, the plant produces hydrogen of exceptional purity, measuring at 99.999%.

Applications in Clean Transportation:

The hydrogen generated by the plant is intended to power fuel cell buses and other vehicles, promoting the use of clean energy in the transportation sector.

Government Initiatives and Support:

The Ministry of New and Renewable Energy has taken proactive steps by setting up a dedicated portal streamlining all necessary clearances and permissions for the manufacturing, transportation, storage, and dispensation of hydrogen.

Implementation and Impact:

Affordable and Clean Energy (SDG 7):

By producing green hydrogen through renewable-powered electrolysis, the project offers a renewable, clean energy source, directly addressing SDG 7 on affordable and clean energy.

Climate Action and Reduced Carbon Emissions (SDG 13):

The reduction in diesel consumption and subsequent carbon emissions showcases a commitment to climate action, in alignment with SDG 13, emphasizing a sustainable approach to combatting climate change.

Decent Work and Economic Growth (SDG 8):

The project fosters economic growth by pioneering green hydrogen technology, creating employment opportunities and contributing to decent work and economic growth (SDG 8).

Clean Air and Sustainable Cities (SDG 11):

As the project significantly reduces local air pollution by replacing diesel usage, it supports SDG 11 by fostering sustainable cities and communities.

Innovation and Industry Growth (SDG 9):

The adoption of innovative Anion Exchange Membrane (AEM) technology showcases a commitment to industry innovation and growth in alignment with SDG 9.

Results and Recognition:

The commissioning of India’s first pure green hydrogen plant in Jorhat has garnered international recognition and serves as a model for further sustainable energy projects.

By focusing on green hydrogen’s transformative potential, the project has illustrated how it can uplift communities, create sustainability, and act as a linchpin for achieving the global SDGs.

Recognized nationally and internationally, this pioneering initiative represents a leap towards India’s ambitious goal of achieving net-zero carbon emissions by 2070.

This real-world success story vividly portrays the transformative and holistic impact of green hydrogen, emphasizing its pivotal role in achieving the Sustainable Development Goals while enhancing the lives and sustainability of communities in Jorhat, India.

Real-World Success Story: Green Hydrogen Empowerment on Koh Jik Island, Thailand

Project Name: “Koh Jik H2: Empowering Island Communities”

Objective: Aligning Green Hydrogen with the SDGs, focusing on clean energy (SDG 7), decent work and economic growth (SDG 8) and climate action (SDG 13).

Project Overview:

The island of Koh Jik, nestled off the coast of Thailand, is home to a close-knit community of 300 residents. In their pursuit of sustainable energy solutions, a pioneering initiative was born—leveraging green hydrogen for energy storage and reducing reliance on diesel generators.

Hydrogen Production and Energy Storage:

Solar-powered electrolyzers were installed to produce green hydrogen during periods of abundant sunlight. This hydrogen was stored in fuel cells to ensure a continuous and reliable power supply to meet the island’s daily energy consumption of 265 kWh.

Diesel Reduction and Cleaner Energy Supply:

With green hydrogen acting as the primary energy source, diesel generators were utilized as a backup energy supply, significantly reducing diesel consumption from 37,000 liters to a mere fraction of that amount annually.

Implementation and Impact:

Environmental Benefits and Climate Action:

The reduction in diesel consumption resulted in a substantial decrease in carbon emissions, aligning with SDG 13 (climate action) by mitigating the island’s carbon footprint and promoting a cleaner, more sustainable environment.

Empowering the Local Economy and Community:

The project not only improved energy sustainability but also created local employment opportunities for maintenance, operation, and community education regarding sustainable energy practices, contributing to SDG 8 (decent work and economic growth).

Results and Recognition:

The successful integration of green hydrogen on Koh Jik Island serves as a remarkable example of utilizing clean energy solutions to reduce reliance on fossil fuels and promote a sustainable energy future.

The project gained recognition from both local and international organizations for its innovative approach in advancing clean energy adoption and aligning with the SDGs.

This real-world success story highlights the transformative potential of green hydrogen, showcasing its ability to directly contribute to achieving the Sustainable Development Goals while enhancing the lives and sustainability of communities.


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