Prologis Buildings, A Story of Sustainability
Our enduring commitment to sustainability means creating industry-leading, energy-efficient buildings that cost less to operate, so you save money.
Low-emission, energy-efficient HVAC
Reduce output when building is unoccupied
Reflect sunlight and repel heat, lowering indoor air temperatures
High-efficiency roofing and wall materials
Optimize interior temperatures
20–30% regionally sourced building materials
Reduce transportation emissions and boost local economies. Use of bio-based circular building materials.
Real-time energy monitoring
Inform employees and create awareness
Reduce daytime electricity use
Turn rooftops into sources of clean energy
LED lighting with dynamic controls
Improve illumination and reduce energy costs
Energy-saving mode of dock equipment
Preserve energy when not in use
Dock levelers with gap sealing and dock shelters with bottom cushion
Seal interior to the elements
Areas for storage and collection of recyclables
Minimize environmental impact
Low-emitting paint, sealants and insulation
Lower environmental impact than conventional paint products
Smart energy meters
Monitor energy in real time to reduce energy expenditures
Exterior LED lighting
Reduce light pollution and energy costs
Electric vehicle (EV) charging stations
Reduce emissions for daily commuters
Carpool/car-sharing dedicated parking spots
Secured bicycle shed with e-bike charging
Drought-tolerant plants and rainwater collection
Decrease water usage, reproduce local ecosystems and support biodiversity with insect hotels, bird houses, edible trees and greenery
Access to public transportation options
Public transport, shuttles, bicycle rental and car sharing
Sustainable Design Features & Benefits
Our logistics real estate facilities integrate geographically relevant, sustainable design features, including:
|Skylights and clerestory windows
|Using natural light lowers electricity use and associated greenhouse gas emissions, and improves indoor environmental quality for warehouse personnel.
|High-reflectance roof membranes
|Traditionally, warehouses have black ethylene propylene diene terpolymer (EPDM) rubber roofing membranes that absorb heat from sunlight. White thermoplastic polyolefin (TPO) roofing, also known as “cool roofs,” offers equal performance at essentially the same cost, while reducing the urban heat island effect and often providing a more comfortable work environment. They can also lower operating costs by reducing energy use in air-conditioned spaces.
|Bicycle, hybrid and carpool vehicle parking
|Offering parking for alternative modes of transportation encourages lifestyle choices that reduce carbon emissions and promote health and well-being.
|Recycled and locally sourced construction materials
|Using recycled concrete, steel, asphalt and other materials in new warehouse construction delivers significant environmental benefits, including minimizing transportation-related greenhouse gas emissions and diverting a large percentage of construction waste from the landfill.
|Area for onsite recycling
|Supporting customer recycling efforts helps reduce landfill waste and use of virgin resources.
|Energy-efficient lighting systems
|Warehouses traditionally use metal halide lighting, but most of our portfolio uses energy-efficient fluorescent and LED lighting technology, often including occupancy- and light-sensing controls to further reduce electricity consumption.
|Water conservation measures
|Exterior landscaping, motion-activated faucets, low-flow toilets, waterless urinals and captured rainwater for irrigation all reduce the use of fresh water.
|Low-emitting sealants, adhesives and carpet systems
|Compounds and chemicals with non-petroleum bases conserve nonrenewable resources and improve air quality for a healthier working environment.
|Solar, storage and wind power
|Industrial warehouses are viable candidates for alternative energy systems, especially photovoltaic solar cells and battery storage.