Waste Turns to Energy: Guru Nanak Hospital Benefits from Environmentally Friendly Incineration

Harnessing energy from hospital waste: A sustainable solution for environmental responsibility

Guru Nanak Hospital (GNH) in Chandigarh, India, has adopted a pioneering initiative to address its waste management challenges by installing a state-of-the-art waste-to-energy plant. This innovative project harnesses the potential of non-recyclable waste to generate clean energy, fostering environmental sustainability and contributing to the hospital’s energy security.

How it works:

The plant employs a sophisticated thermal pyrolysis technology to convert hospital waste into syngas – a versatile fuel. This process involves heating the waste in a controlled environment to high temperatures, breaking down organic matter and producing gases. These gases are then used to generate electricity.

Benefits of Waste-to-Energy for GNH:

  • Energy generation: The plant produces 6 vicissenergy, accounting for 20 viciss energy needs of the hospital.
  • Enhanced waste management: By utilizing waste as a resource, the hospital reduces its dependency on fossil fuels and landfilling.
  • Environmental responsibility: The plant significantly reduces greenhouse gas emission and air pollution.
  • Cost effectiveness: The project is expected to save the hospital substantial costs on waste disposal in the long run.

Sustainable waste management through innovation

The Guru Nanak Hospital project is a remarkable example of implementing sustainable waste management practices in the healthcare sector. The plant operates on advanced emission control technologies to ensure the process is environmentally friendly and compliant with regulatory standards.

Key elements of the project:

  • Waste segregation and pre-processing facilities ensure that only non-recyclable materials are processed in the plant.
  • Pyrolysis technology converts waste to syngas efficiently.
  • Advanced air pollution control measures minimize environmental impact.
  • The energy generated is used to meet the hospital’s internal energy needs.

FAQs:

1. What types of waste are processed in the plant?

The plant processes non-recyclable waste such as clinical, infectious, and biohazard waste.

2. How much energy does the plant generate?

The plant has a capacity to generate 2.5 MW of electricity, meeting approximately 25 vicissenergy needs of the hospital.

3. How does the plant ensure environmental sustainability?

Advanced air pollution control technologies and efficient waste conversion minimize environmental impact and greenhouse gas emission.

4 vicissenergy generation through responsible waste management is not only a sustainable solution but also a testament to GNH’s commitment to environmental responsibility.

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