Master the Coal Generator: Beginners Guide

Master the Coal Generator: Beginners Guide

Table of Contents

1. Introduction
2. Simple Coal Layouts
   1. Basic Coal Layout
   2. Improved Coal Layout
   3. Advanced Coal Layout
3. Water Extractors and Generators
   1. Water Extractor Capacity
   2. Water Distribution System
   3. Balancing Water Supply
4. Manifold Distribution Systems
   1. Explaining Manifold Distribution
   2. Manifold Layout for Coal Generators
5. Tips for Setting Up Coal Power
   1. Keeping Generators and Extractors on the Same Level
   2. Easy Expansion and Management
   3. More Complicated Setups
6. Conclusion

Simple Coal Layouts

When it comes to setting up a coal production power layout in Satisfactory, there are a few key considerations to keep in mind. In this article, we will explore three different levels of coal layouts, from basic to advanced, and discuss various tips and techniques to optimize your coal power production.

Basic Coal Layout

The basic coal layout is a simple yet effective way to get started with coal production. It involves setting up one water extractor to supply three separate pipes that feed into coal generators. This layout can generate up to 225 megawatts of power, providing a significant boost from the biomass burner's 30 megawatts per unit output. By underclocking the water extractor to 66%, you can achieve optimal water supply without overwhelming the system.

Pros:

• Easy to set up and manage
• Provides a substantial increase in power output

Cons:

• Limited power capacity compared to more advanced layouts

Improved Coal Layout

For those looking for a more substantial power output, the improved coal layout offers a step up from the basic layout. This layout utilizes the maximum capacity of one pipe, which can supply up to 300 cubic meters of water per minute. By running just under seven generators, with six running at full capacity and one at 66%, you can achieve a power output of approximately 445 megawatts.

Pros:

• Higher power output compared to the basic layout
• Utilizes maximum water capacity of one pipe

Cons:

• Requires more generators and planning

Advanced Coal Layout

The advanced coal layout is the most complex of the three layouts discussed in this article. It involves setting up an array of water extractors and coal generators in a balanced and efficient manner. By utilizing a manifold distribution system, water is evenly distributed among the generators, allowing for maximum power production. This layout can be scaled up by replicating the setup for every additional 500 megawatts of power desired.

Pros:

• High power output potential
• Efficient use of water resources

Cons:

• More intricate setup requiring advanced planning and management

Water Extractors and Generators

To achieve an optimal coal power production setup, it's essential to understand the relationship between water extractors and generators. The water extractor has a maximum capacity of 120 cubic meters of water per minute, while each coal generator requires a maximum of 45 cubic meters of water per minute. This means that a successful implementation of one water extractor can supply just under three water extractors.

Water Extractor Capacity

When setting up your coal layout, it's crucial to consider the capacity of your water extractors and the needs of your generators. Underclocking the water extractors can help regulate the water supply and ensure optimal performance. By balancing the water supply and demand, you can avoid overwhelming the system and maintain a steady power output.

Pros:

• Allows for efficient water usage
• Prevents system overload

Cons:

• Requires careful monitoring and adjustment

Water Distribution System

In a basic coal layout, a simple water distribution system is used. The water is fed into a pipe and split into three separate pipes, each supplying a coal generator. This setup is effective for small-scale coal production. However, as power demands increase, more advanced distribution systems may be necessary.

Pros:

• Easy to set up and manage
• Suitable for small-scale coal production

Cons:

• Limited scalability

Balancing Water Supply

In more advanced layouts, such as the improved and advanced coal layouts, it's important to balance the water supply to ensure even distribution among the generators. A manifold distribution system can be used to achieve this. By dividing the water flow at various points along the pipe network, water can be evenly distributed to each coal generator, maximizing power output.

Pros:

• Ensures even water distribution
• Maximizes power production

Cons:

• More complex setup

Manifold Distribution Systems

A manifold distribution system is a more advanced method of distributing water and is particularly useful for larger-scale coal power setups. By dividing the water supply at different points along the pipe network, the system can handle higher water volumes efficiently. This method can also be used for belt distribution systems, allowing for the efficient supply of resources to multiple machines.

Explaining Manifold Distribution

In a manifold distribution system, water is distributed via a series of junctions and splits in the pipe network. By strategically placing these junctions, water can be evenly distributed to all coal generators, even if the pipe capacity is exceeded. This ensures that each generator receives the necessary water supply for optimal performance.

Manifold Layout for Coal Generators

In an advanced coal layout, a manifold distribution system can be used to supply water to the coal generators. By setting up multiple water extractors and using a balanced layout, each generator receives an equal amount of water, maximizing power output. This layout can be scaled up by replicating the setup for every additional 500 megawatts of power desired.

Pros:

• Even distribution of water among generators
• Allows for scalable power production

Cons:

• More complex setup and planning required

Tips for Setting Up Coal Power

Setting up a coal power production system can be a challenging task. Here are a few tips to help you navigate the process and optimize your setup:

Keeping Generators and Extractors on the Same Level

To simplify your coal power setup, consider keeping the coal generators and water extractors on the same level. This eliminates the need for buffer tanks or pumps, making the setup more straightforward and manageable.

Easy Expansion and Management

The layout designs discussed in this article are easily expandable. By replicating the setups, you can increase your power production in increments of 500 megawatts. This allows for a flexible and scalable power system as your factory grows.

More Complicated Setups

While the layouts presented in this article provide effective solutions for coal power production, there are more complex setups out there. As you become more experienced and your power demands increase, you may explore more intricate designs to further optimize your coal power production.

Conclusion

With the information and tips provided in this article, you should now have a good understanding of how to set up coal power production in Satisfactory. Whether you choose a basic, improved, or advanced layout, it's important to consider the capacity of your water extractors, balance the water supply, and explore manifold distribution systems for efficient power output. By following these guidelines, you can successfully transition from biomass to coal power and enjoy the benefits of increased power production in your factory.