Revolutionizing Wastewater Treatment with BEADS™ Technology

Our Vision

At JSP Enviro, we envision a world where industries grow sustainably without compromising on the cost. Our mission is to revolutionize wastewater treatment by delivering deep-climate technology that is energy-efficient, chemical-free, and designed to minimize carbon footprints. We believe in transforming effluent into opportunity—helping businesses save costs, meet regulations, and protect the environment.

Making a Sustainable Impact

Our BEADS™ technology is transforming wastewater treatment facilities worldwide, delivering exceptional environmental and economic benefits.

JSP Enviro Carbon Impact Tool

Carbon Impact Calculator for Wastewater Treatment

Estimate emissions from conventional treatment trains and compare the potential impact of BEADS^TM technology on COD, sludge, electricity, and landfill-related carbon footprint.

Built using published emission factors and treatment-performance references from wastewater engineering literature.

COD concentration mg/L

Water volume m³/day

Add treatment methods

Add treatment methods stepwise. The calculator assumes the selected methods operate successively in the same order they are added, so Step 2 receives the remaining COD after Step 1, Step 3 receives the remaining COD after Step 2, and so on.

Initial COD load: - kg COD/day

Final COD after selected train: - mg/L

Total COD removed: - kg COD/day

Total emissions: - kg CO₂e/day

BEADS^TM COD reduction at inlet 45%

BEADS^TM sludge yield: 0.01 kg dry sludge/kg COD removed

BEADS^TM energy recovery 0.50 kWh/kg COD

Electricity offset factor kg CO₂e/kWh

Baseline emissions - kg CO₂e/day

With BEADS^TM - kg CO₂e/day

CO2e reduction - kg CO₂e/day

Energy recovered - kWh/day

Energy CO2e credit - kg CO₂e/day

Annual CO2e savings - tonnes/year

Default factors are editable. Treatment steps are calculated successively in the order they are added. Automatic sludge disposal is added as the final calculation once any treatment method is selected.

This calculator provides indicative estimates based on user inputs and default emission factors. Actual emissions may vary depending on wastewater characteristics, operating conditions, energy source, sludge management practices, and verified treatment performance. Results are intended for preliminary comparison and educational purposes only and should not be used as certified carbon accounting or regulatory reporting data.

References

ASP basis: COD is expressed as an oxygen-equivalent demand in mg O2/L, while aeration energy is commonly calculated from oxygen transferred per kWh. Default aeration efficiency uses 2.0 kg O2/kWh, within the 1.8-3.0 kg O2/kWh typical range noted by Engineers Ireland. Additional oxygen-transfer background: Water, 2022.

Flocculation factor basis: PAC default 0.53 kg CO2e/kg and ferrous coagulant proxy 0.18 kg CO2e/kg are based on values reported in Sustainability, 2023. Alum default 0.50 kg CO2e/kg is based on CarbonCloud's aluminium sulfate product report. Lime default 0.94 kg CO2e/kg follows a hydrated-lime life-cycle estimate from Journal of Cleaner Production, 2022. Polymer products use editable proxy defaults because public product-specific emission factors are not consistently available.

Electrocoagulation basis: EC COD removal is auto-suggested from these calibration points: 1000 mg/L = 52.5%, 3000 mg/L = 35.0%, 5000 mg/L = 26.3%, 10000 mg/L = 16.2%, and 30000 mg/L = 6.4%. Published EC performance varies by wastewater type and operating conditions. References: Environmental Science and Pollution Research review, Electrocoagulation process report, and Arabian, 2021.

Sludge basis: Flocculation sludge yield default is 1.01 kg dry matter/kg COD removed (Applied Sciences, 2025). ASP sludge yield default is 0.50 kg TSS/kg COD removed (Pollution Prevention and Control: Material and Energy Balances). EC sludge yield default is 4.3 kg dry sludge/kg COD removed (Sustainability, 2025). Landfill factor default is 5.0 kg CO2e/kg dry sludge (Australian Government biosolids snapshot).

BEADS^TM scenario: BEADS^TM is applied as inlet pretreatment using the selected slider value. BEADS^TM sludge is calculated at 0.01 kg dry sludge/kg COD removed, and energy recovery is included as an avoided-electricity carbon credit.