# Learning from Nature: Bio-Inspired Designs and Strategies for Efficient On-Earth and Off-Earth Ventilation Systems

**Authors:** Ulfa Riani, Noune Melkoumian, David Harvey, Rini Akmeliawati

PMC · DOI: 10.3390/biomimetics10110754 · 2025-11-07

## TL;DR

This paper explores how natural structures like ant nests and termite mounds can inspire better ventilation systems for buildings and space habitats.

## Contribution

The study provides a comprehensive overview and analysis of bio-inspired ventilation strategies for both Earth and off-Earth environments.

## Key findings

- Bio-inspired designs can improve air distribution and energy efficiency in ventilation systems.
- Natural structures offer adaptable strategies for fluctuating environmental conditions.
- Research trends show growing interest in applying these strategies to space habitats and underground mines.

## Abstract

Efficient ventilation systems are of paramount importance for maintaining optimal air quality in indoor and enclosed environments, both on Earth and in space. Such environments include buildings, space habitats, international space station crew quarters, tunnels, underground mines and other structures. However, conventional ventilation systems encounter various challenges, including uneven air distribution, energy inefficiency, noise, and limited adaptability to fluctuating environmental conditions. Concurrently, a multitude of organisms in nature have demonstrated the capacity to construct structures that can facilitate efficient air exchange and heat regulation. Illustrative examples of such structures include ant nests, termite mounds and prairie dog burrows. The present study explores, analyses and summarizes the mechanisms, structures and strategies found in nature that can inspire the design of efficient and effective ventilation systems. The purpose of this paper is to highlight the practical implications of the aforementioned designs. To this end, it reviews the progress of research into bio-inspired ventilation, focusing on the following three areas: air regulation, component optimization and environmentally adaptive strategies. A bibliometric analysis and research trend is presented to illustrate the key developments in this field over the past 25 years. The potential of integrating the bio-inspired strategies into ventilation systems, with a particular emphasis on off-Earth habitats and underground mines, is discussed. This study provides a comprehensive overview of the development of bio-inspired ventilation systems, thereby establishing the foundation for the creation of innovative and efficient design solutions.

## Full-text entities

- **Diseases:** headaches (MESH:D006261), depression (MESH:D003866), injury to (MESH:D014947), impair cognitive function (MESH:D003072), death (MESH:D003643), unconsciousness (MESH:D014474), LLC (MESH:D008171), stroke (MESH:D020521), CO2 intoxication (MESH:D000435), CFD (MESH:C000719218), scorpion (MESH:D065008), hypoxic (MESH:D002534), asphyxiation (MESH:C537571)
- **Chemicals:** carbon (MESH:D002244), urea (MESH:D014508), O2 (MESH:D010100), CO2 (MESH:D002245), water (MESH:D014867), Samara (-)
- **Species:** Mesembryanthemum crystallinum (common iceplant, species) [taxon 3544], Crocus vernus (species) [taxon 87752], Megaptera novaeangliae (humpback whale, species) [taxon 9773], Macrotermes michaelseni (species) [taxon 105431], Homo sapiens (human, species) [taxon 9606], Odontotermes transvaalensis (species) [taxon 315816], Macrotermes subhyalinus (Mendi termite, species) [taxon 138608], Crocus (genus) [taxon 58949], Odontotermes obesus (species) [taxon 483037], Polistinae (paper wasps, subfamily) [taxon 7455], Macrotermes jeanneli (species) [taxon 138607], Hoplocarida (mantis shrimps, superorder) [taxon 75389], Apis mellifera (bee, species) [taxon 7460], Astacoidea (crayfish, superfamily) [taxon 6724], Porifera (sponges, phylum) [taxon 6040], Meriones crassus (Sundeval's jird, species) [taxon 298887], Mimosa pudica (sensitive-plant, species) [taxon 76306]

## Figures

31 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12650390/full.md

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Source: https://tomesphere.com/paper/PMC12650390