Technology and climate action

We are currently living in an age of transformation. Technology that was once a foreign concept is now something we can’t do without, for example to play online at

It has enormous potential, and as it continues to evolve, technology has become the only thing that can help us deal with one of the greatest challenges of our time: climate change.

A history of climate technology innovation

Much of the research on innovation and technological change is focused on achieving economic progress. We want to understand and shape the processes that help us continue to grow our revenues and profits. But the use of technological innovation to solve social and environmental problems is a relatively recent phenomenon.

Why is this? This is likely due to the fact that innovators are responsive to the demands and aspirations of the target market. That’s why we’re seeing such growth in consumer technology. For example, new iPhones are released every year due to the high demand for innovation. There is practically no “natural” market for environmental technologies. However, this seems to be slowly changing.

The UN’s clear 2022 climate agenda already includes science. Innovation is central to countries’ climate policies. Indeed, we have set ourselves an ambitious goal: to ensure that the long-term increase in global temperature does not exceed 2°C. There is no single way to achieve this goal; solutions vary due to a variety of factors, including the future availability and cost of the technology. However, all models agree that the energy system contributes the most to climate change and therefore needs the most radical changes.

Obstacles to climate technology

Scientists and researchers have made incredible strides in the inventive and innovative stages of technological change. However, they must succeed in the next two steps—acceptance and dissemination—in order to create positive environmental change at scale. This does not happen overnight and comes with its own set of obstacles and challenges.

On the one hand, many promising technologies are not commercially available, limited to developed countries, or too expensive to install individually. Some of them have yet to gain social and political acceptance, which means it will be a long time before they become permanent fixtures in any household. The overall speed of development and adoption is also largely controlled by government policy, openness to change, and market forces, including energy prices.

Promising climate technology currently fighting climate change
With increasing technology adoption and consumer awareness, we are seeing more and more people turn to efficient climate technologies. Here are some very promising ones:

Direct air capture technology

The level of carbon dioxide in the atmosphere has increased by 48% since the beginning of the industrial revolution. Trees are a natural way to sequester carbon, but the problem is so urgent that any help from climate technology is welcome.

This is where Direct Air Acquisition (DAC) technology comes in. Massive vacuum cleaners extract CO2 from the atmosphere and sequester it underground. Under certain circumstances, they also redistribute the sequestered gas to specialized companies, such as those that supply farmers with fertilizers or produce soft drinks.

2. Network of smart hives to save bees

Bees are essential for a stable and healthy diet. Bees are ideal for pollination, helping plants grow, reproduce and produce food. However, their population is declining. By protecting bees and other pollinators, we can address the global challenges of food supply and poverty, as well as prevent further biodiversity loss and environmental degradation. Oracle and The World Bee Project decided to do just that.

The World Hive Network collects data on bee population decline using cloud technology, artificial intelligence (AI) and smart sensors to better conserve it. Using this technique, researchers can obtain intimate information about bee cells. They can explore the relationship between wing movement, temperature, environment, honey yield, and other variables. In doing so, they can discover patterns necessary for the survival of bees and hives in the real world.

3. Floating solar installations

Although solar energy is spreading in many countries, large-scale installations are difficult to install in densely populated areas or on rocky terrain. In countries where sunlight is limited, solar installations must be supported by other forms of energy that still burden the environment.

The technical solution to this problem is floating installations on existing hydroelectric dams. During the day, they exploit unused sea surfaces, and at night they generate hydroelectric power. The world’s largest floating solar power plant in South Korea could power 60,000 people. Given the number of artificial reservoirs that already exist around the world, the potential impact of floating solar power plants is incredible.