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Agriculture can both produce and consume energy.

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Technical Report: Plasma Torches for a 210 TPD Plasma Gasification Plant

October 12, 2025 by Michael Noel

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This report details the function and types of plasma torches used in plasma gasification, and provides a calculation for the estimated electrical capacity required for a commercial-scale 210 tonnes per day (tpd) plant.


Part 1: The Use and Function of Plasma Torches in Gasification

1.1 Function in the Gasification Process

A plasma torch is a high-power device that uses an electric arc to generate a stream of superheated, ionized gas, known as thermal plasma. This plasma is often referred to as the “fourth state of matter” and is capable of reaching extremely high temperatures, ranging from 

6,000∘C6,000∘C

 to 

14,000∘C14,000∘C

—significantly hotter than conventional combustion processes[1][2].

In plasma gasification, the torch is the primary energy source. Its function is to provide the intense thermal energy required to facilitate the chemical breakdown of the feedstock (e.g., municipal solid waste, biomass, or hazardous waste) in an oxygen-starved environment.

The key processes driven by the plasma torch are:

  1. Molecular Dissociation (Pyrolysis): The extreme heat breaks down complex organic molecules in the feedstock into their elemental constituents, primarily hydrogen (H2H2​) and carbon monoxide (COCO), which form the final product: synthesis gas (syngas)[2][3]. The high temperatures prevent the formation of tars and dioxins, which are common byproducts of lower-temperature gasification or incineration[2][3].
  2. Vitrification: All inorganic materials and heavy metals present in the feedstock (like glass, rock, and metal) are instantly melted by the plasma’s heat. They flow out of the reactor as an inert, non-leaching, glassy solid known as vitrified slag, which can often be used as a construction aggregate[2][3].

The plasma torch system is typically located at the bottom of the gasifier vessel, providing the energy for the conversion[3].

1.2 Types of Plasma Torches

Commercial plasma gasification systems predominantly utilize Direct Current (DC) torches due to their stable operation, lower power consumption, and better control compared to Alternating Current (AC) torches[1]. The two main configurations are:

Torch TypeConfigurationApplication & Characteristics
Non-Transferred ArcThe electric arc forms between two electrodes housed inside the torch body.Widely used for municipal solid waste (MSW) and industrial waste due to versatility and stable operation independent of the material being treated[4]. The efficiency can be lower (down to 50%) due to cooling water heat loss, though this recovered heat can be utilized[1].
Transferred ArcThe electric arc is formed between an internal electrode (cathode) and the conductive feedstock or molten material (anode), meaning the arc forms outside the torch body.Offers higher energy efficiency, as the arc is formed away from the water-cooled body[1][4]. Ideal for processing conductive materials and often preferred for hazardous waste[4]. A twin-torch setup is used for non-conductive materials to form an external arc between two torches[1].

Torches are commercially available in a wide range of power inputs, with some companies offering multiple distinct torch systems[3][5].


Part 2: Capacity Calculation for a 210 TPD Plant

To determine the necessary electrical capacity for the plasma torch system, the key metric is the Specific Energy Consumption (SEC) of the torch, measured in kilowatt-hours per tonne (

kWh/tonkWh/ton

) of feedstock processed.

2.1 Specific Energy Consumption (SEC) Estimation

Commercial-scale plasma gasification systems typically consume a specific amount of electrical energy for the plasma torch, which provides the high temperature necessary for the process.

  • A common industry estimate for the electrical power required specifically for the plasma torches in an industrial-scale gasification plant is approximately 100−150 kWh/ton100−150 kWh/ton of processed municipal solid waste (MSW)[6].
  • For this calculation, we will use a conservative average of 115 kWh/ton115 kWh/ton as the torch-specific electrical consumption.

2.2 Total Continuous Power Requirement

The total continuous electrical power capacity required for the plasma torch system is calculated based on the 210 tpd feedstock capacity, assuming 24-hour-per-day operation.

Total Daily Electrical Energy=Feedstock Capacity (tpd)×Specific Torch Energy Consumption (kWh/ton)Total Daily Electrical Energy=Feedstock Capacity (tpd)×Specific Torch Energy Consumption (kWh/ton)
Total Daily Electrical Energy=210 tons/day×115 kWh/ton=24,150 kWh/dayTotal Daily Electrical Energy=210 tons/day×115 kWh/ton=24,150 kWh/day
Total Continuous Power Capacity (kW)=Total Daily Electrical EnergyOperation Hours per DayTotal Continuous Power Capacity (kW)=Operation Hours per DayTotal Daily Electrical Energy​
Total Continuous Power Capacity (kW)=24,150 kWh24 h≈1,006 kWTotal Continuous Power Capacity (kW)=24 h24,150 kWh​≈1,006 kW
Total Continuous Power Capacity (MW)≈1.01 MWTotal Continuous Power Capacity (MW)≈1.01 MW

2.3 Required Plasma Torch Configuration

A 210 tpd plasma gasification plant would therefore require a plasma torch system with a minimum combined continuous electrical input capacity of approximately 1.01 Megawatts (MW).

The actual configuration would depend on the manufacturer and the reactor design, but could be one of the following scenarios:

ScenarioNumber of TorchesIndividual Torch CapacityRationale
A (Single Large Torch)One (1)1.0−1.2 MW1.0−1.2 MWSimplest installation but no redundancy in case of torch failure.
B (Dual Mid-Size Torches)Two (2)500 kW−600 kW500 kW−600 kW eachProvides excellent heat distribution and redundancy (if one torch fails, the other can continue operating at reduced capacity).
C (Multiple Small Torches)Three (3)350 kW−400 kW350 kW−400 kW eachOffers maximum heat distribution control and greater operational flexibility, allowing for planned maintenance rotation[7].

In conclusion, for a 210 tpd plasma gasification plant, the necessary plasma torch capacity is approximately 1.01 MW of continuous electrical input. This capacity would most likely be supplied by a system of two to three high-power commercial plasma torches.

Sourceshelp

  1. stanford.edu
  2. pyrogenesis.com
  3. plasmatech.us
  4. researchgate.net
  5. doe.gov
  6. eurecat.org
  7. diva-portal.org

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Benefits of Agriculturally Produced Energy:

Reduced Land Use Competition: Agrivoltaics can help balance the need for food production and renewable energy generation by utilizing the same land area for both purposes

Agriculture can both produce and consume energy. It produces energy through biomass conversion (e.g., biofuels) and through the generation of electricity using solar panels (agrivoltaics) and wind turbines. Simultaneously, agriculture relies on energy for various processes like powering machinery, irrigation, and producing fertilizers.

 

Reduced Reliance on Fossil Fuels: Diversifying energy sources on farms helps reduce dependence on fossil fuels, which are a major source of greenhouse gas emissions.

Lower Energy Costs: Renewable energy technologies can significantly lower energy costs for farmers, making their operations more sustainable.

Diversified Income: Agrivoltaics and other energy production methods can create new income streams for farmers, improving their financial resilience.

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