How Does a Steam Turbine Work? The Technology Behind the Power

Steam turbines have been a cornerstone of industry and energy production for over a century. They convert the heat and pressure of steam into mechanical energy, which can then drive generators, pumps, or other equipment.

Although the technology is more than a hundred years old, modern turbines have been refined with high precision, new materials, and efficient designs. So how do they actually work?

Vad är ORC-teknik? En guide till energieffektivitet med ORC-system

ORC står för Organic Rankine Cycle och är en teknik som används för att producera elektricitet från lågtempererad värme. Till skillnad från traditionella ångturbiner kan ORC-system fungera vid lägre temperaturer. Det gör dem användbara i situationer där konventionell teknik inte räcker till. På så sätt kan energi som tidigare gick förlorad i form av spillvärme omvandlas till en resurs.

ORC Modules and Small Steam Turbines – a Powerful Combination

Combining ORC modules with small steam turbines is an effective way to maximize energy recovery. This combination is well-suited for both industrial and marine environments. By allowing the systems to complement each other, high-temperature steam and low-temperature waste heat can be utilized. This increases efficiency and reduces energy losses.

Common faults in steam turbines and how to prevent them

Steam turbines are robust machines designed to operate reliably for decades, provided they are used and maintained correctly. However, no machine is immune to wear, technical faults, or operational disturbances. In this article, we review three common types of faults that can affect turbines, why they occur, and how they can be prevented with the right measures.