Chemical Engineering: Implementing Strategies to Fight Climate Change

Chemical engineers and scientists are working together to establish and implement global strategies to fight climate-change. In this article, we shall be identifying strategies that are already taking place that rely on the continued work of chemical manufacturer systems and research groups:

Energy-Efficiency Strategies

The goal for industry and society is to become entirely energy-efficient in the future. As stated at the 2012 Paris Climate Change Conference, sixty-six percent of our created electrical power generated is wasted. The key precedence, therefore, must be to alter this and make the industry energy efficient. The chemical manufacturing industry makes a significant contribution to climate change research by creating systems and solutions that are engineered to meet specific goals, such as carbon reduction and renewable technologies.

Low carbon energy systems may be only option to meet society’s power demands; this means using renewable energy technology, like solar, wave and wind. Many of the difficulties with using this technology is finding a method to make them more cost efficient. Chemical engineers are working on methods of creating viable, sustainable energy resources to solve these important issues. The political orientation for climate-change options are set up by governments. However, it requires chemical engineering scientists to assess the systems, strategies and identify the technical options to be utilised.

Energy Storing Options

Powerful energy-storage is an essential element of climate-change challenges, and chemical manufacturers and engineers will help. Becoming adaptable in our use and creation of electrical-energy requires innovative energy-storage technologies – including using energy that is stored in chemical compounds to be discharged upon request through conversion. There is a clear need to decarbonise electricity generation if we plan to keep on utilising fossil-fuels. Carbon-capture and storing (CCS) can be an easily deployable technology option that can achieve these goals. Chemical manufacturer firms and scientists have been working on technology to turn carbon-materials to functional commodities, for instance face cream, plastic bottles in addition to glue.

Nuclear power has already been playing an essential part to de-carbonise the international energy market. Nuclear energy is a low and secure carbon energy source as it does not emit CO2 during electricity creation. Chemical research groups are necessary for the nuclear sector, by ensuring standards of efficiency, safety and environmental standards are assured, as well as designing cutting edge nuclear-reactors to improve efficiency.

Thermograde Process-Technology is an authoritative high-tech Chemical Manufacturer based in the United Kingdom. They supply an international market with in-organic solidstate material and contracts for chemical based processing services.