English

Model Predictive BESS Control for Demand Charge Management and PV-Utilization Improvement

Systems and Control 2017-12-20 v1

Abstract

Adoption of battery energy storage systems for behind-the-meters application offers valuable benefits for demand charge management as well as increasing PV-utilization. The key point is that while the benefit/cost ratio for a single application may not be favorable for economic benefits of storage systems, stacked services can provide multiple revenue streams for the same investment. Under this framework, we propose a model predictive controller to reduce demand charge cost and enhance PV-utilization level simultaneously. Different load patterns have been considered in this study and results are compared to the conventional rule-based controller. The results verified that the proposed controller provides satisfactory performance by improving the PV-utilization rate between 60% to 80% without significant changes in demand charge (DC) saving. Furthermore, our results suggest that batteries can be used for stacking multiple services to improve their benefits. Quantitative analysis for PV-utilization as a function of battery size and prediction time window has also been carried out.

Keywords

Cite

@article{arxiv.1712.06787,
  title  = {Model Predictive BESS Control for Demand Charge Management and PV-Utilization Improvement},
  author = {M. E. Raoufat and B. Asghari and R. Sharma},
  journal= {arXiv preprint arXiv:1712.06787},
  year   = {2017}
}

Comments

Accepted in: Conference on Innovative Smart Grid Technology (ISGT), Washington, DC, 2018

R2 v1 2026-06-22T23:22:36.568Z