Reviving pre-Columbian technologies for sustainable water management systems
pre-Columbian technology
water management
hydraulic engineering
sustainability
arid regions
Predicting turbine failures in wind farms with multimodal sensor fusion AI
predictive maintenance
sensor fusion
wind energy
AI diagnostics
renewable infrastructure
Designing self-healing concrete with archaea-inspired biomineralization pathways
self-healing concrete
archaea biomineralization
biomimetic materials
infrastructure resilience
microbial repair
Via redox flow battery optimization for grid-scale renewable storage
redox flow batteries
energy storage
grid stability
renewable integration
electrochemical optimization
Planning 22nd century legacy systems with 10,000-year material stability
legacy systems
material stability
long-term planning
future infrastructure
ultra-durable materials
Predicting magnetic pole reversal impacts on global power grid resilience by 2050
magnetic pole reversal
power grid resilience
geomagnetic storms
infrastructure vulnerability
space weather
Employing self-healing materials in underwater infrastructure to reduce maintenance costs
self-healing materials
underwater infrastructure
corrosion resistance
deep-sea engineering
autonomous repair
Reengineering Renaissance-era architectural designs with modern seismic-resistant nanomaterials
Renaissance architecture
seismic resistance
nanomaterials
historical engineering
earthquake-proof design
Reinventing flood barrier designs using mycelium-based composites with embedded nanosensors
mycelium composites
smart flood barriers
nanosensors
adaptive materials
biodegradable infrastructure
Self-healing materials for underwater infrastructure using mussel-inspired polymer chemistry
self-healing materials
underwater infrastructure
bioinspired polymers
marine engineering
adhesive chemistry
Optimizing lunar regolith sintering techniques for durable base infrastructure in extreme temperature swings
lunar regolith
sintering
thermal cycling
construction materials
ISRU
Reengineering Renaissance designs with modern materials for sustainable architectural innovation
Renaissance architecture
sustainable design
material science
structural engineering
historical innovation