Implementation of Energy Saving Projects and Delivering Energy Savings

Delivering Profits & Sustainability Together

Call to Connect +91-98230 71702

Delivering Profits & Sustainability Together

Call to Connect +91-712-222-2177

seetech new logo

Trusted By

2000 User

 Role of Backpressure Turbine to reduce GHG Emissions

We have been achieving more than 20% energy savings for most of our clients. We would like to share with you one of our success stories. 


A 200 kW backpressure turbine has been successfully commissioned. It has bypassed a pressure reducing station (PRS). It will generate 1.26 Million Units of electricity per year saving about 10.71 Million INR & 1,134 MT of GHG emissions. The overall payback period is 14 months.

The Role of Backpressure Turbines in Reducing Greenhouse Gas Emissions

Backpressure turbines are a key technology in enhancing energy efficiency and reducing greenhouse gas (GHG) emissions. These turbines are employed in various industrial settings to convert steam energy into electrical power, a process that significantly optimizes the use of energy and minimizes waste. Here’s a detailed look at how backpressure turbines contribute to GHG reduction, illustrated by the successful implementation at SEE Tech Solutions.

How Backpressure Turbines Work

Backpressure turbines are typically used in industries where steam is produced at high pressure. Instead of letting the high-pressure steam reduce to lower pressure through a pressure reducing valve (PRS), the steam is passed through a backpressure turbine. This turbine generates electricity while reducing the steam pressure to the required level. The key advantage of this method is that it recovers energy that would otherwise be wasted in the PRS, thereby producing additional electricity without additional fuel consumption.

Environmental Impact and GHG Emission Reduction

The use of backpressure turbines has a profound impact on reducing GHG emissions in several ways:

1.     Energy Efficiency: By generating electricity from the existing steam, backpressure turbines reduce the need for externally supplied electricity, often generated from fossil fuels. This results in a net decrease in fuel consumption and consequently, lower carbon emissions.

2.     Reduced Fossil Fuel Dependency: With the additional electricity produced by the turbine, industries can rely less on conventional power sources, which predominantly use fossil fuels. This shift contributes to a reduction in GHG emissions, as fossil fuel power plants are significant sources of carbon dioxide (CO₂) and other greenhouse gases.

SEE Tech Solutions’ Case Study

SEE Tech Solutions has effectively implemented a 200 kW backpressure turbine, showcasing the technology’s potential in real-world applications. Here are the specifics of the project’s impact:

·        Electricity Generation: The turbine generates 1.26 million units of electricity annually. This substantial amount of power directly offsets the need for equivalent electricity from fossil fuel sources.

·        Cost Savings: The electricity generated leads to savings of approximately 10.71 million INR per year. These savings demonstrate the economic benefits alongside the environmental advantages, making the project financially attractive with a payback period of just 14 months.

·        GHG Emission Reduction: The turbine helps in reducing about 1,134 metric tons (MT) of GHG emissions annually. This figure reflects the significant environmental impact of replacing conventional energy generation with energy recovered through the turbine.


The integration of backpressure turbines, as demonstrated by SEE Tech Solutions, is a powerful strategy in the pursuit of energy efficiency and GHG emission reduction. By converting otherwise wasted steam energy into useful electricity, these turbines offer a dual benefit of economic savings and environmental protection. The successful commissioning of the 200 kW backpressure turbine, resulting in substantial electricity generation, cost savings, and significant GHG emission reduction, underscores the transformative potential of this technology in the industrial sector. As industries continue to seek sustainable and efficient energy solutions, backpressure turbines will undoubtedly play a crucial role in reducing their carbon footprint and fostering a greener future.




Leave a Comment

Your email address will not be published. Required fields are marked *