CL and Rachel Werner Center for Health Sciences Education

CL and Rachel Werner Center for Health Science Education is a new construction facility on the west side of Creighton University's campus. It was designed as a collaborative and world-class environment for health sciences students. Morrissey Engineering contributed engineering services and sustainability design support as part of the design team for this state-of-the-art building that will serve as the new home for the School of Medicine.

Services

Features

In the heart of downtown Omaha's urban landscape, a visionary health sciences facility was created as a building and a symbol of sustainable design and community engagement. This project reflects a commitment to integrating environmental, social, and economic values, aiming to create a space that harmonizes with the ecosystem while fostering equitable communities.

At its core, the design prioritizes ecological integrity. The design team was dedicated to respecting and restoring natural habitats, ensuring the building minimizes environmental impact. As part of this commitment, innovative water conservation measures were implemented, showcasing the intent to protect this vital resource. The facility features water closets and urinals designed for efficiency alongside sensor-operated faucets that significantly reduce water flow.

One of the most critical challenges faced is stormwater management. The City of Omaha has set ambitious requirements for stormwater runoff, mandating that the building manages significant rainfall events effectively. A strategic design incorporating underground rainwater storage tanks can capture and retain the entire volume of a 100-year storm. Instead of discharging this water into the city's stormwater system, it will infiltrate the regional groundwater, further exceeding environmental standards and earning valuable LEED credits.

The building's energy efficiency is another cornerstone of the design philosophy. Optimizing glass performance and utilizing advanced daylighting strategies reduces energy consumption while enhancing indoor comfort. Features such as variable air volume boxes and demand-controlled ventilation optimize the building's HVAC systems, ensuring energy use aligns closely with actual occupancy needs. Moreover, installing a 90 kW photovoltaic array on the rooftop harnesses renewable energy, empowering the facility to reduce its carbon footprint significantly.

Wellness, too, is paramount in the design. Even though the building cannot meet every WELL certification requirement due to specific project constraints, the project prioritized access to nature and natural light as a key component. Gathering spaces at both entrances invite occupants to connect with the outdoors while thoughtfully designed views enrich the experience from within. This synergy between indoor and outdoor environments fosters mental clarity and emotional well-being among students and faculty alike.

Additionally, the commitment to resource optimization aligns with the dedication to sustainability. One of the main focuses of the mechanical, electrical, and light design was to reduce embodied carbon in critical areas such as concrete, structural steel, and glazing. By sourcing low-carbon materials and implementing strategies emphasizing durability and recyclability, the aim was to create a facility that is functional and a responsible member of the circular economy.

In essence, this project is more than just a health sciences facility for new and veteran students; it is a holistic approach to design that resonates with contemporary values of sustainability, wellness, and community—through meticulous planning, integration, and innovation, setting a new standard for future developments.

Project

New Construction

Location

Omaha, Nebraska

Square Footage

135,000 SF

Completion Date

2023

Architect

RDG Planning & Design