Smart Energy Solutions for a Reliable Future
Powering industries with sustainable, cost-effective, and uninterrupted energy solutions.
Why Choose PASPL ?
Cost Effective Finances
Technical Support
Ownership Options
Faster Implementation
Timely Upgrades
Energy Business Activities
Gas-Based Power Solutions for a Sustainable Future
Diesel generators have long been the standard for backup power, but industries and commercial establishments in India are now increasingly adopting natural gas-based generators for their efficiency, lower emissions, and sustainability.
At PASPL, we provide innovative gas-based power solutions, leveraging combined heat and cooling platforms to maximize energy efficiency. Our goal is to become an integrated energy player in the distributed power sector, offering fast-track, clean energy solutions with world-class operations, maintenance, and project management.
Our core commitment is to deliver fast-track, clean energy solutions backed by world-class operations, maintenance (O&M), and project management. Our innovative business model offers a diverse range of gas-based assets, including gensets, boilers, and chillers, ensuring reliable power with over 95% uptime.
We recognize the urgent need to balance energy supply and demand. Distributed power solutions play a crucial role in reducing dependence on large-scale power plants, which contribute to higher carbon emissions. By integrating efficient, eco-friendly gas-based power systems, we help businesses transition towards a sustainable and resilient energy future.
Our Gensets
MWM Natural gas Genset 1000 KW
MWM Natural gas Genset 1125 KW
MWM Natural gas Genset 1300 KW
MWM Natural gas Genset 1500 KW
Jenbacher Gas Genset
MWM Natural gas Genset 2000 KW
Benefits of Natural Gas Generators
- Natural Gas as a fuel which is cleaner energy source, less expensive than other fossil fuels.
- High efficiency as compared to Diesel Generator.
- Exhaust and jacket water heat can be recovered to provide heating or cooling with almost no opex.
- Comparing natural gas to diesel it has lesser amounts of sulfur, nitrogen, and carbon dioxide (a greenhouse gas) are considerably lower. Making natural gas one of the cleanest fossil fuels to burn.
- Aside from being cleaner burning and cheaper to buy, natural gas siminates the need for vehicular transportation, storage tank as itis delivered directly through underground pipelines to the source where it is needed without losses.
- Can be utilized for continuous operation and is highly cheaper as compared to power generation with Diesel Generator.
What is CHP?
- Reduced Energy Costs: CHP systems eliminate the need for separate purchases of electricity and heating fuel (like natural gas). Instead, they utilize natural gas to generate electricity, capturing the waste heat (exhaust and jacket water) for steam or hot water production for heating purposes.
- On-site Power Security: CHP units act as backup power sources during grid outages, ensuring a reliable energy supply for critical industrial processes. This self-sufficiency offers significant advantages in terms of both cost and reliability compared to sole reliance on the grid.
Trigeneration (CCHP), Unleash Peak Efficiency
Trigeneration, also known as Combined Cooling, Heat and Power (CCHP), offers the most cost-effective and environmentally friendly solution for generating electricity, heating, and cooling. This technology is ideal for organizations with substantial cooling needs, such as data centers, hospitals, and universities.
CCHP system works by combining the power of CHP (Combined Heat and Power) with absorption chillers. CHP generates electricity ‘while capturing waste heat. Trigeneration takes this a step further by utilizing this waste heat to power the absorption chiller, which efficiently produces chilled water for air conditioning or refrigeration.
Benefits of Trigeneration
- Reduced Energy Costs : CCHP eliminates the need for separate purchases of electricity, heating fuel, and cooling systems.
- Enhanced Sustainability : By utilizing waste heat, trigeneration significantly reduces overall energy consumption and minimizes environmental impact.
- Improved System Efficiency: CCHP boasts superior overall efficiency compared to traditional methods of generating electricity, heating, and cooling separately.
Ideal Applications For Trigeneration
- Data Centers : CCHP effectively addresses the high cooling demands of data centres while minimizing energy costs
- Hospitals: Hospitals require both consistent cooling and heating for various functions. Trigeneration provides a reliable and efficient solution for both needs.
- Universities and Educational Facilities: Campuses often have high and diverse energy demands. Trigeneration offers a versatile and cost-effective approach.
- Pharmaceuticals and other process industries: Many industries rely on a constant supply of electricity, heating, and cooling for critical manufacturing processes. Trigeneration offers a reliable and efficient way to meet these combined needs.
Economic Advantages of Trigeneration
- Quantifiable Cost Savings: Trigeneration demonstrably reduces annual energy expenditures. Many providers offer guarantees of significant savings, and often exceed those guarantees with real-world performance.
- Enhanced Energy Security: Trigeneration systems lessen dependence on the national grid, fostering greater energy security for organizations. By generating their own electricity and utilizing waste haat for heating and cooling, faciities achieve a higher degree of autonomy and control over their anergy needs.
- Operational Flexibility: Reduced reliance on the grid enhances operational flexibility. Facilities can optimize energy use based on internal demands, potentially reducing peak energy consumption charges.
Get In Touch with Us !
Have questions or need a customized solution? We’re here to help! Reach out to PASPL for expert guidance on asset leasing, energy solutions, and equipment trading. Our team is ready to assist you with the right solutions tailored to your business needs.
