[et_pb_cpt_author_bio admin_label="ET CPT Author Bio" author_name="on" author_name_link="author_url" author_name_target="none" author_bio="off" author_website="off" author_social="off" author_avatar="off" author_avatar_alignment="alignleft" use_border_color="off" border_color="#ffffff" border_style="solid" custom_css_main_element="text-align:center;" author_name_before="Articles by " text_font_size="30px" text_text_color="#ffffff" headings_text_color="#ffffff" /]
[et_pb_cpt_author_bio admin_label="ET CPT Author Bio" author_name="on" author_name_link="none" author_name_target="none" author_bio="on" author_website="off" author_social="off" author_avatar="off" author_avatar_alignment="alignleft" use_border_color="off" border_color="#ffffff" border_style="solid" author_name_before="About " /]

The Role of Smart Batteries in Resilient Cities

Imagine what might happen if distributed power was installed at publicly owned facilities and resources. Every school, every police and fire station, along with critical intersections, could be equipped with an uninterruptable power supply in the form of PV panels and lithium-ion-based energy storage systems. Public spaces, critical street lights and businesses would remain illuminated.