Global Collaboration: Three Ways of Energy Transition to Build a Sustainable Future

Home Global Collaboration: Three Ways of Energy Transition to Build a Sustainable Future

The COP28 Summit, held from November 30 to December 12, 2023, in Dubai, UAE, marks the 28th United Nations Climate Change Conference. Amid a surge in climate anomalies and escalating natural disasters globally, the urgency for collective action against climate change has never been more evident. Focused on climate change, natural disasters, and energy transition, this summit aims to limit global temperature rise to within 1.5℃ through global collaboration, accelerate the green transition, and address the hazards and losses associated with climate change.


The Crucial Role of Energy Transition
In the face of climate threats, achieving carbon reduction and energy transition is paramount. The core of addressing climate challenges lies in reducing dependence on fossil fuels and enhancing the utilization of renewable energy. Energy transition is a complex, systemic undertaking that necessitates collaborative efforts from governments, businesses, and various sectors of society. Let’s see what we can contribute at different levels.

Active Participation at the User Level
1.Installation of New Energy Power Systems
The construction of new energy power systems provides individuals with a proactive avenue. By erecting photovoltaic systems on rooftops or balconies, individual users can achieve energy independence and contribute to clean energy. This initiative not only lessens environmental burdens but also offers economically viable renewable energy sources for users.
2.Transition to Electric Vehicles
The choice of daily transportation is a critical aspect of energy transition. Users can choose to gradually adopt electric vehicles as their primary mode of transportation, significantly reducing reliance on fossil fuels. The use of electric vehicles not only promotes eco-friendly travel but also actively contributes to the development of a low-carbon society.


3.Residential Energy Storage Systems
Integrating distributed photovoltaic systems with residential energy storage systems adds flexibility to energy utilization. Users can achieve energy independence and store excess electricity to cope with unforeseen circumstances. This not only enhances home energy efficiency but also reduces carbon emissions, creating a smarter and more sustainable living environment.

Active Engagement at the Corporate Level
1.Installation of New Energy Power Stations
Corporations with significant electricity operating costs, particularly those equipped with production facilities and possessing extensive unused rooftop space, can greatly benefit from installing rooftop photovoltaic systems. By harnessing natural resources, these enterprises can supplement the electricity needed for daily production, not only reducing electricity costs but also revitalizing dormant assets. Corporate involvement accelerates the widespread application of clean energy in the business sector.
2.Involvement in EV Charging Stations
With the rapid growth in global sales and ownership of electric vehicles, corporations can actively participate in the construction of EV charging stations. Integrating photovoltaic and other renewable energy systems into these stations contributes to sustainable energy provision for users.


3.Commercial and Industrial Energy Storage Systems
Sustainable energy often comes with uncertainties, such as the impact of weather on photovoltaic systems. In cases of weather-related fluctuations, commercial and industrial energy storage systems become a preferred choice. These systems efficiently store excess energy generated during sunny periods, preventing wastage of solar resources and further increasing energy utilization efficiency.

Guidance and Promotion at the Governmental Level
1.Leadership in New Energy Power Station Construction
During the COP28 Summit, 118 countries committed to tripling renewable energy electricity production by 2030. To achieve this goal, national governments should actively encourage and lead in the development of new energy power stations. Maximizing the use of natural resources, such as land, water bodies, and wind, to construct sustainable energy power stations would meet the nation’s production and living needs. Simultaneously, exploring multipurpose uses for power stations would maximize resource utilization, such as combining hydroelectric and floating photovoltaic stations.


2.Establishment of Industry Standards and Favorable Policies
While the new energy industry is rapidly expanding, it is crucial to address industry irregularities. Governments should not only drive industry growth but also establish and progressively refine industry standards. As a result, shortened lifespans of power systems caused by low-quality products and irregular installations can be avoided and dual losses of property and resources can be prevented. Simultaneously, providing favorable policies, such as simplifying access procedures for station grid connection and offering industry subsidies, encourages active participation in the application of new energy by businesses and users, fostering more efficient industry development.

3.Promotion of Technological Development
The carbon emissions generated during the construction and operation of sustainable energy power stations should not be overlooked. Governments must continue financial investments to actively promote technological development, reducing carbon emissions during power station construction and operation to align with sustainable development requirements.


To achieve energy transition, countries, businesses, and users must collaborate. Governments should formulate proactive policies, provide incentive measures, and drive new energy development. Corporations should invest in clean energy projects, while users can actively participate in the energy transition process by adopting new energy technologies. The COP28 Summit will be a pivotal moment for global climate action. Through international cooperation, global society will collectively strive to mitigate the impact of climate change, drive energy transition, and usher in a cleaner, more sustainable future. Every country, business, and individual has a responsibility to contribute to this goal. On the path to the future, let us join forces and collectively create a brighter tomorrow.

Beny’s Energy Transition Solutions
With its extensive experience and professional knowledge, Beny has emerged as a global leader in the renewable energy industry, catering to the needs of homeowners, businesses, and renewable energy investors worldwide. Beny’s product line spans various aspects of energy transition, meeting the diverse needs of different user levels:
PV components and microinverters are designed for the characteristics of photovoltaic systems, applicable to systems of different capacities, improving system efficiency, and ensuring safe and stable operation.
EVB AC and DC EV chargers power ranges from 3.7KW to 262KW, equipped with portable, wall-mounted, and floor-standing installation options, as well as single-gun or three-gun charging choices.
Commercial and residential energy storage systems feature safe and efficient energy storage technology, enhancing energy utilization efficiency.
Beny is dedicated to providing users with top-quality products and services, continually striving to offer innovative solutions for users to achieve renewable energy goals and accelerate global energy transition. Visit our website for more detailed information: and

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