
Data banks in *Oxygen Not Included* are essential structures that serve as storage units for research points, which are crucial for unlocking new technologies and advancements in the game. These data banks allow players to accumulate and manage their research resources efficiently, enabling them to progress through the game’s tech tree and improve their colony’s survival chances. By storing excess research points in data banks, players can strategically plan their technological upgrades, ensuring they have the necessary knowledge to tackle the game’s challenges, such as managing resources, maintaining a habitable environment, and exploring new areas. Understanding how to effectively use data banks is key to long-term success in *Oxygen Not Included*.
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What You'll Learn
- Storage Methods: Efficiently storing oxygen using tanks, reservoirs, and diffusers for base sustainability
- Oxygen Production: Algae, electrolyzers, and natural vents as primary oxygen generation sources
- Distribution Systems: Managing oxygen flow with pipes, automation, and proper base layout
- Oxygen Monitoring: Using sensors and overlays to track levels and prevent suffocation
- Oxygen Conservation: Reducing consumption via insulation, dupes' needs, and efficient base design

Storage Methods: Efficiently storing oxygen using tanks, reservoirs, and diffusers for base sustainability
In *Oxygen Not Included*, managing oxygen levels is critical for colony survival, and efficient storage methods can make or break your base's sustainability. Tanks, reservoirs, and diffusers each serve distinct roles in oxygen management, but their effectiveness depends on how and where they’re deployed. Tanks, for instance, are ideal for localized oxygen storage, providing quick access in high-demand areas like farms or bedrooms. However, they occupy space and require careful placement to avoid overheating or contamination. Reservoirs, on the other hand, excel in large-scale storage, acting as central hubs for oxygen distribution. Diffusers, when paired with reservoirs, ensure even oxygen dispersion, preventing pockets of suffocation in sprawling bases. Understanding these tools’ strengths and limitations is the first step toward mastering oxygen storage.
Consider the following practical steps to optimize oxygen storage: First, calculate your base’s oxygen consumption rate by tracking dupes’ needs and environmental factors like algae growth. For every 10 dupes, allocate at least 200 kg of oxygen storage in tanks for immediate use, placing them near high-consumption areas. For long-term sustainability, construct a reservoir system with a capacity of 1,000 kg or more, depending on your colony size. Connect diffusers to the reservoir via automated smart vents to maintain a consistent oxygen level of 80–100% in living and working areas. Avoid over-pressurizing rooms, as this wastes oxygen and risks pipe bursts. Regularly monitor storage levels using automation to refill tanks from the reservoir when levels drop below 50%.
A comparative analysis reveals that tanks are best for small, isolated areas, while reservoirs and diffusers are essential for larger, interconnected bases. Tanks are simple to set up but require frequent micromanagement, whereas reservoirs offer scalability but demand careful planning to avoid bottlenecks. Diffusers, though energy-intensive, are indispensable for maintaining uniform oxygen levels, especially in multi-level bases. For example, a base with 20 dupes might use 10 tanks (200 kg each) for localized needs, a 2,000 kg reservoir for bulk storage, and 15 diffusers strategically placed to cover all critical zones. This hybrid approach balances efficiency and redundancy, ensuring oxygen availability even during power outages or algae die-offs.
One often-overlooked caution is the risk of oxygen overheating in tanks placed near heat sources like incinerators or volcanic biomes. Always insulate tanks with abyssalite or use cool slush to maintain safe temperatures. Additionally, avoid placing diffusers in areas prone to pollution or chlorine gas, as these can damage the system and harm dupes. For advanced players, integrating electrolyzers into the storage system can recycle hydrogen and carbon dioxide into oxygen, reducing reliance on algae farms. However, this method requires precise automation and ample power supply, making it more suitable for late-game bases.
In conclusion, efficient oxygen storage in *Oxygen Not Included* hinges on a layered approach combining tanks, reservoirs, and diffusers. Tanks provide flexibility, reservoirs offer scalability, and diffusers ensure consistency. By tailoring your storage methods to your base’s size, layout, and resource availability, you can create a sustainable oxygen system that supports colony growth without constant oversight. Remember, the goal isn’t just to store oxygen—it’s to distribute it effectively, ensuring every dupe breathes easy while minimizing waste and maximizing efficiency.
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Oxygen Production: Algae, electrolyzers, and natural vents as primary oxygen generation sources
In the world of Oxygen Not Included, managing oxygen levels is critical for the survival of your duplicants. Three primary sources stand out for oxygen generation: algae, electrolyzers, and natural vents. Each has unique advantages and challenges, making them suitable for different stages of your colony’s development. Understanding how to harness these sources effectively can mean the difference between a thriving base and a suffocating disaster.
Algae, the early-game oxygen powerhouse, thrives in polluted water and requires minimal setup. Start by constructing an algae terrarium and feeding it with polluted water from your wash basins or toilets. Each terrarium can support up to 200 kg of algae, which produces 12.5 g of oxygen per second per 100 kg. To maximize efficiency, place the terrarium near your polluted water source and ensure it’s well-lit, as algae requires light to grow. A single terrarium can sustain a small colony, but scaling up requires careful planning to avoid overloading your power grid and water systems.
Electrolyzers emerge as the mid-to-late game solution, offering consistent oxygen production but at a higher resource cost. These machines split water into hydrogen and oxygen, producing 1.33 g of oxygen per second per electrolyzer. To set up an electrolyzer system, pump clean water into the machine and ensure you have sufficient power and cooling, as they generate significant heat. Pair electrolyzers with hydrogen engines to utilize the byproduct for power, creating a self-sustaining cycle. However, this setup demands advanced resource management and is best suited for colonies with established power and cooling infrastructure.
Natural vents provide a passive, renewable oxygen source but require careful exploration and management. These vents release oxygen directly into your base, eliminating the need for complex machinery. To locate vents, send duplicants to explore the map, focusing on cooler biomes where vents are more common. Once discovered, build a sealed chamber around the vent to prevent gas dispersal and connect it to your base’s air system. Be cautious of toxic gases that may accompany oxygen vents, and always filter the air before distribution. Natural vents are ideal for long-term sustainability but rely on luck and exploration.
Balancing these oxygen sources is key to a resilient colony. Start with algae to meet early oxygen demands, transition to electrolyzers as your power and water systems mature, and integrate natural vents for passive support. Monitor oxygen levels using gas overlay and adjust production accordingly. Overproducing oxygen can lead to inefficiency, while underproduction risks asphyxiation. By mastering these sources, you’ll ensure your duplicants breathe easy, no matter the challenges they face.
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Distribution Systems: Managing oxygen flow with pipes, automation, and proper base layout
In *Oxygen Not Included*, effective oxygen distribution is a cornerstone of colony survival, and mastering distribution systems is key to ensuring your duplicants thrive. Pipes are the lifeblood of this system, acting as conduits for oxygen, water, and other gases. To optimize flow, prioritize a grid-based layout with main arteries feeding into smaller branches. Use smart placement of valves and bridges to control pressure and prevent backflow. For instance, a 2-tile wide oxygen pipe can support up to 10 duplicants comfortably, but larger colonies may require wider pipes or parallel systems to avoid bottlenecks.
Automation transforms a static distribution system into a dynamic, self-regulating network. Wire up oxygen sensors to automate pumps and valves, ensuring areas with high demand, like bedrooms and farms, receive consistent oxygen levels. Set thresholds at 20% oxygen for alarms and 80% for active pumping to maintain efficiency. Pair this with smart base layout: cluster high-oxygen-demand rooms together and elevate them to take advantage of natural gas stratification. For example, placing bedrooms and farms on higher levels allows oxygen to flow downward naturally, reducing pump workload.
Proper base layout isn’t just about aesthetics—it’s about functionality. Design your base with oxygen flow in mind by avoiding dead ends and ensuring pathways for gases to circulate freely. Use atriums or open spaces to act as oxygen reservoirs, especially in multi-level bases. A common mistake is overcrowding pipes and wires, leading to inefficiency and maintenance headaches. Instead, dedicate specific layers or zones for utilities, keeping oxygen pipes separate from power and water systems to minimize cross-contamination and simplify troubleshooting.
Comparing manual and automated systems highlights the advantages of the latter. While manual setups may seem simpler initially, they require constant monitoring and adjustment, leaving room for human error. Automated systems, though more complex to set up, provide long-term stability and scalability. For instance, a well-automated oxygen distribution system can adapt to fluctuating demand during different colony phases, from early survival to late-game expansion. The investment in automation pays off in saved time, resources, and duplicant morale.
Finally, a descriptive walkthrough of an ideal distribution system illustrates its components in action. Imagine a base with a central oxygen generator feeding into a main horizontal pipe, branching into vertical risers that supply each level. Automated sensors monitor oxygen levels, activating pumps only when needed, while overflow vents release excess gas into atriums. The layout is clean, with pipes running along walls and utilities tucked into dedicated layers. This system not only ensures survival but also creates a harmonious, efficient environment where duplicants can focus on tasks without gasping for breath.
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Oxygen Monitoring: Using sensors and overlays to track levels and prevent suffocation
In the intricate ecosystem of Oxygen Not Included, maintaining breathable air is a delicate balance. Data banks, while not directly related to oxygen management, highlight the game's emphasis on resource tracking and optimization. This principle applies equally to oxygen monitoring, where sensors and overlays become your lifelines.
Forget manual checks and guesswork. Oxygen sensors, strategically placed throughout your base, act as your early warning system. These tiny devices continuously measure oxygen levels, providing real-time data crucial for preventing suffocation. Overlays, visual representations of this data, transform your base into a living, breathing map of air quality.
Placement is Key: Position sensors in high-traffic areas, near critical infrastructure like farms and bedrooms, and at potential choke points where air circulation might be restricted. Aim for a density that allows you to pinpoint problem areas quickly.
Think of overlays as your aerial view, revealing oxygen gradients and potential dead zones. Customize them to display oxygen levels in a color-coded format, making it easy to identify areas of concern at a glance.
Beyond Basic Monitoring: Advanced players can leverage sensor data for automation. Set up alarms that trigger when oxygen levels dip below a critical threshold, automatically activating air pumps or redirecting airflow. Combine sensors with logic gates to create sophisticated systems that respond dynamically to changing conditions.
Imagine a scenario where a CO2 buildup in a farming area triggers an alarm, automatically activating a vent to release the gas and simultaneously increasing oxygen production in that zone.
The Human Factor: Remember, dupes are your most valuable resource. Train them to recognize the signs of low oxygen, such as sluggish movement and decreased productivity. Encourage them to report any unusual smells or feelings of dizziness, which could indicate a hidden oxygen deficiency.
By integrating sensors and overlays into your base management strategy, you transform oxygen monitoring from a reactive chore into a proactive science. This data-driven approach ensures the survival and prosperity of your colony, allowing you to focus on exploration, expansion, and the countless other challenges Oxygen Not Included throws your way.
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Oxygen Conservation: Reducing consumption via insulation, dupes' needs, and efficient base design
In *Oxygen Not Included*, oxygen is a precious resource, and its conservation is critical for the survival of your duplicants (dupes). One of the most effective strategies to reduce oxygen consumption is through insulation. Uninsulated areas exposed to space or vacuum will rapidly depressurize, wasting oxygen and endangering dupes. By insulating walls, floors, and ceilings with materials like Abyssalite or Insulated Tiles, you create airtight environments that minimize oxygen loss. Abyssalite, in particular, is ideal for extreme temperatures as it prevents heat transfer, ensuring your base remains stable without additional cooling or heating costs.
Another key aspect of oxygen conservation is managing dupes' needs efficiently. Dupes consume oxygen at a base rate of 0.00833 kg/second (0.5 kg/minute), but this increases during physical activity or stress. To mitigate this, prioritize tasks that minimize unnecessary movement and assign dupes to roles that match their skills, reducing stress and inefficiency. Additionally, ensure dupes have access to recreational areas and comfortable living conditions, as happy dupes work more efficiently and consume fewer resources. Avoid overworking them, as exhausted dupes require more oxygen and are prone to accidents.
Efficient base design plays a pivotal role in oxygen conservation. A compact, well-organized base reduces the volume of space that needs to be pressurized, lowering overall oxygen demand. Use vertical space wisely by building multi-level bases, and group essential areas like bedrooms, kitchens, and recreation rooms close together to minimize travel distances. Incorporate airlock systems to prevent depressurization when dupes move between areas, and use automated doors or manual gates to control airflow. Proper zoning and containment of hazardous areas, such as polluted oxygen or chlorine pockets, further ensures oxygen purity and safety.
A practical tip for advanced players is to integrate natural oxygen production into your base design. Algae Terrariums, for instance, produce oxygen while consuming polluted water and carbon dioxide, creating a self-sustaining cycle. Pairing these with Electrolyzers, which split polluted water into oxygen, hydrogen, and clean water, can significantly reduce reliance on external oxygen sources. However, balance this with insulation and containment to prevent cross-contamination and ensure efficient resource use. By combining insulation, dupes management, and smart base design, you can create a sustainable oxygen system that supports long-term colony growth.
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Frequently asked questions
Data banks in Oxygen Not Included are structures that store research points, which are used to unlock new technologies and upgrades in the game's research tree.
To build a data bank, you need to research it in the "Base" section of the technology tree. Once unlocked, construct it using refined metals and glass at a metal refinery and glass forge, respectively.
A data bank requires 200 kg of refined metals and 100 kg of glass to construct.
Once built, research points are automatically stored in the data bank as you complete duplicant tasks or discover new resources. You can then spend these points in the research tree.
Yes, you can build multiple data banks to increase your storage capacity for research points, allowing you to accumulate more points for future research.











































