Renewable energy sources are energies that we rely on every day for example electricity, hot water, and fuel for our cars. Most of this energy derives from fossil fuels such as coal, oil, and natural gas. Chemical engineers are working on the sustainability of energy sources as our fossil …show more content…
The first chemical engineers were not highly accepted, people weren’t accepting the idea of mixing chemistry and engineering until results were being noticed. The first chemical engineering course ever taught was at MIT or Massachusetts Institute of Technology in 1888. The first forms of sources were wood, water, and charcoal. Although coal was the most efficient it would weaken the metals until an English inventor named Hugh Pat created charring which would use coke to make the coal lighter ( Micheal 2). This would be the start of what we call the Industrial Revolution. This allowed many industries to boom especially the railroads. People then began using solar power as an energy which came from plants. This led to many issues because you can only use so many plants before you have to make room to plant more. Everything was depending on coal to run, and people knew they needed to figure out a different way to run everything eventually our technology led us into different paths. Many chemical engineers are trying to improve energy efficiency, produce cleaner fuels, and reduce the costs of these …show more content…
By using urine this could be an abundant renewable source to keep electricity running. Another example of a source solution that a chemical engineer has created has to do with energy from the sun. According to Victoria Tang in the article Plant Power a chemical engineer named Orlin Velver has created a new solar panel that uses all natural plant parts and a non-harmful device to create efficient cheap energy (Tang 1). According to Leah Shaffer in an article called A Kick-Butt Way to Power Electronics old used cigarette buds can be used to create a porous carbon that could be used to create electricity by placing the used buds under a high temperature, it is said that this could work faster than a usual battery (Shaffer 1). These are only two of many new solutions that our chemical engineers have worked hard to