Model Aims To Predict the Future of Energy
By Adam DoveMedia Inquiries
- College of Engineering
Carnegie Mellon University's Cristiana Lara and Ignacio Grossmann, ExxonMobil and the National Energy Technology Laboratory have developed a new model to help plan for the future of energy.
"We are conducting research to address the planning of capacity expansion in the electricity generation infrastructure," said Lara, a Ph.D. student in chemical engineering, "assuming an increasing share of power generation from renewables, and the possibility of including baseline fossil power generation and energy storage systems."
In a paper they published in the European Journal of Operational Research, the team addresses how new large-scale optimization models are required for predicting and planning where power will come from over the next 20 to 30 years.
Renewable power generation, such as solar and wind, comes with its own set of problems. The sun is not always shining; the wind not always blowing. Due to the intermittent nature of renewable power generation, it is necessary to plan for possible fluctuations in power on an hour-by-hour basis to ensure the reliability and flexibility of the system. There already exist a number of sustainable fossil energy systems that can be used to generate a baseline of power to mitigate this intermittency, and further development of energy storage systems can help as well.
"Advanced optimization modeling techniques have been developed for the planning of cost-effective, long-term sources for power generation in a given region," said Grossmann, a professor of chemical engineering. "These choices include both fossil fuels such as coal, gas, and nuclear - and renewables, such as wind, solar and hydro. Together, the combination of these sources will be able to satisfy forecast power demands and variability in renewable generation, while anticipating development of new power storage technologies."
The model, which uses multiperiod mixed-integer linear programming, is applied to a given area, such as a state or an independent systems operator consisting of existing and potential generators, along with potential energy storage units. From there, the objective is to find the location, year, type, and number of generators and storage units to install; when to retire the generators, or extend their lifetime; the approximate power flow between these locations; and the approximate operating schedule in order to meet the projected demand while minimizing costs.
Since the corresponding programming model involves millions of variables and constraints, advanced commercial optimization software cannot solve these problems. Therefore, Lara and Grossmann have developed a special solution algorithm, which allows them to effectively optimize these problems, typically in just a few hours.
In order to test their model and decomposition algorithm, the team applied it to a case study on the Texas Interconnection, managed by the Electric Reliability Council of Texas. The results show that their framework can provide substantial speed-up, and allow the solution of larger instances. This improvement in solution time allows one to perform several sensitivity analyses, and better understand the drivers for a variety of scenarios.
With the help of this new optimization model, future energy infrastructure will not only be more productive and cost effective, but more environmentally efficient as well, bringing the full benefit of next-generation energy technologies to the world.
Carnegie Mellon University is committed to educating, empowering and aligning its community around the world to address the Sustainable Development Goals, also known as the Global Goals, which aim to create a more peaceful, prosperous planet with just and inclusive societies. Recognizing the critical contributions that universities are making through education, research and practice, CMU publicly committed to undertaking a Voluntary University Review of the Global Goals. The 17 Global Goals cover wide-ranging issues, including reducing violence, ending extreme poverty, promoting equitable education, fighting inequality and injustice, advancing economic growth and decent work, and preventing the harmful effects of climate change by 2030.
The preceding story demonstrates CMU's work toward attaining Global Goals 7 and 9.