In a world where global challenges such as climate change, poverty, and inequality are ever-present, the United Nations' Sustainable Development Goals (SDGs) have emerged as a beacon of hope.
In a world increasingly gripped by the urgency of climate change, the quest for innovative solutions to combat rising carbon dioxide (CO2) levels is paramount. The consequences of unchecked.
Carbon-negative processes are crucial for achieving carbon neutrality goals to mitigate climate change. Several carbon capture technologies exist to capture carbon dioxide (CO2) emissions.
Recent reports on global warming show that people have gained more awareness of the impact of human activities on climate change, leading to the reduction of greenhouse gas (GHG) emissions..
Air dehumidification systems based on condensation technology are currently the most used for air control quality. However, emerging technologies based on adsorption methods are gaining.
Humidity control systems are essential for different industrial processes, and their proper selection helps to achieve economical and energy-efficient solutions. In our previous blog , we talk.
Air dehumidification is crucial for industrial processes and air quality in homes, buildings, and public places. In many industrial processes, air dehumidification is used to produce, store,.
Implementing carbon capture and storage systems is critical to reducing environmental pollution. Current capture technologies are based on liquid amine absorption methods (amine scrubbing). Besides.
Implementing porous adsorbent materials for carbon capture has gained importance in recent years. Adsorption technology is considered a promising alternative to replace typical absorption methods.
Carbon capture and storage are urging novel technologies to increase current capture capacity and a more economical alternative than amine scrubbers. Recent efforts in this field have been directed.