Yandex Metrika

Acid Gas Treatment Solutions

Ever-Power’s advanced Regenerative Thermal Oxidizer solutions tailored for acidic gas treatment in Singapore’s chemical and refining sectors, ensuring high-efficiency removal of pollutants like H2S and SO2 while complying with regional regulations across Southeast Asia and global markets.

 

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CO₂ (in acidic contexts)
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H₂S
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NOX
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SO₂
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HCl
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Ever-power RTO – Experts in the Treatment of Acidic Gas

The thriving petrochemical and refining industries generate various acidic gases during processes such as desulfurization and waste treatment. If left untreated, these gases can lead to equipment corrosion and environmental problems. Ever-Power offers high-performance Regenerative Thermal Oxidizer (RTO) systems, integrated with pre-scrubbers, that efficiently oxidize these pollutants into harmless compounds while recovering heat for reuse.

What is Acidic Gases?

Acidic gases include compounds such as hydrogen sulfide (H2S), sulfur dioxide (SO2), nitrogen oxides (NOx), hydrochloric acid (HCl), hydrofluoric acid (HF), and in some cases, carbon dioxide (CO2). RTO systems can effectively treat H2S, SO2, and HCl through high-temperature oxidation, but upstream neutralization is often required to protect equipment. Sources of these gases include natural gas processing, refinery operations, chemical manufacturing, and combustion processes. They are characterized by their corrosive and toxic nature and can contribute to acid rain formation.

Specifically, acidic gases originate from various industrial activities. In refineries, H2S comes from hydrodesulfurization units used to remove sulfur from fuels. Chemical plants produce HCl during chlorination processes, while power plants generate SO2 through coal combustion. The composition of these gases varies: H2S is a colorless gas with a rotten egg smell; SO2 has a pungent odor and forms sulfuric acid in humid environments; and NOx contributes to smog. The table below summarizes the characteristics of these gases for a clearer understanding.

Major Sources of Acid Gas Emissions

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Gas Type 来源 Components 特征
H2S Refineries, natural gas processing, wastewater treatment Hydrogen sulfide Colorless, toxic, flammable, corrosive, low odor threshold (rotten eggs)
SO2 Combustion of sulfur-containing fuels, metal smelting Sulfur dioxide Colorless, pungent, forms acid rain, highly soluble in water
NOx High-temperature combustion in engines, boilers Nitric oxide (NO), nitrogen dioxide (NO2) Brownish gas (NO2), contributes to ozone formation, acidic when oxidized
HCl Chemical manufacturing, incineration Hydrochloric acid vapor Colorless, highly corrosive, forms strong acid in moisture
HF Aluminum production, semiconductor etching Hydrofluoric acid Colorless, extremely corrosive to glass and tissues, toxic
CO2 Combustion, fermentation Carbon dioxide Colorless, odorless, forms carbonic acid in water, greenhouse gas

Environmental Pollution

Causes acid rain (SO₂, NOx), damages ecosystems, and pollutes water and soil.

Human Health

Irritates the respiratory tract (HCl, HF), causes pulmonary edema (high concentrations of SO₂), and leads to chronic poisoning (H₂S).

Equipment Corrosion

Corrodes RTO ceramic heat exchangers, stainless steel casings, pipes, and fans, shortening equipment lifespan.

Regulatory Requirements for Acidic Gases 

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新加坡

Regulation: EPMA Notification
  • HCl ≤ 20 mg/m³
  • HF ≤ 5 mg/m³
  • SO2 ≤ 500 mg/m³
  • 氮氧化物 ≤ 100 mg/m³
Source: NEA Guidelines

Malaysia

Regulation: EQA 1974
  • HCl 30 mg/m³
  • SO2 350-700 mg/m³
  • 氮氧化物 Sector Specific
  • 监测 CEMS Required
Source: DOE Malaysia

中国

Standard: GB 16297 / Sectoral
  • HCl 30–100 mg/m³
  • HF 3–9 mg/m³
  • SO2 35–400 mg/m³
  • 氮氧化物 Ultra-low trends
Source: MEE China

United States

Regulation: EPA CAA / NESHAP
  • HCl ≤20 ppm (or 95%↓)
  • HF NSPS Regulated
  • SO2 Acid Rain Program
  • 氮氧化物 CSAPR Caps
Source: U.S. EPA

European Union

Directive: IED 2010/75/EU
  • HCl < 10 mg/m³
  • HF < 1 mg/m³
  • SO2 < 50-200 mg/m³
  • 氮氧化物 BAT-AEL Standard
Source: EU BREF / EIPPCB

日本

Law: Air Pollution Control
  • HCl ≤ 20 mg/m³
  • HF ≤ 5 mg/m³
  • SOx Total Mass Control
  • 氮氧化物 Regional K-values
Source: MOE Japan

Our Core Technologies for Acid Treatment 

  • Ever-Power RTO systems shine in treating these gases, particularly H2S and SO2, by oxidizing them to SO3 or water vapor at temperatures above 800°C. For HCl and HF, pre-treatment scrubbers neutralize acids before oxidation to avoid ceramic bed damage. This integrated approach suits Singapore’s petrochemical hubs, where space con
  • Essential components for Ever-Power RTO include transmission parts like rotary valves, ensuring smooth gas flow switching and made from Hastelloy for acid resistance. Easy consumables such as ceramic media beds absorb heat and require replacement every 5 years in corrosive environments. Important spare parts encompass burners for oxidation initiation and sensors for real-time acid gas monitoring, stocked in Singapore for quick Jurong deliveries.

 How It Works (Process Summary)

Acidic VOC-Laden Exhaust e.g., HCl, HF, SO₂ + VOCs Quench Tower Alkali Scrubber Removes HCl, HF Bed 1 Bed 2 Bed 3 3床旋转式RTO Oxidizes VOCs @ 750–850°C Polishing Scrubber Clean ⚠️ Acid gases (HCl, HF) must be removed • Pre-scrubbing protects ceramic media • Post-scrubbing captures SO₂ • RTO alone cannot remove acid gases Rotary valve switches flow continuously for >95% heat recovery

2025 Case Studies: RTO for Acid Gas

Innovations in Singapore Petrochemical & Semiconductor Sectors

Jurong Island: H2S Upgrade
Efficiency: 99.5% | Jan 2025 Audit

Implementation of an advanced RTO system to manage increased H2S loads. Includes caustic soda scrubbing as a pre-treatment to neutralize acid gases, preventing media clogging.

Pioneer: Batch Stabilization
Reduction: 97% | Focus: Flow Control

Customized RTO controls designed to stabilize fluctuating flows from batch manufacturing. Features high-precision pH monitoring and acid-resistant seals for 24/7 stability.

"Expert Insight: In humid tropics, acid-proof seals are critical for valve longevity."
Woodlands: HF Semi-con
Tech: Fluoride-Resistant | AI-Driven

Specialized RTOs with fluoride-resistant linings for HF gases. Integrated AI predictive maintenance analyzes sensor data to forecast corrosion failures.

Tuas: Hybrid RTO & Energy
Savings: 40% | Compliance: Blockchain

Hybrid RTOs with catalytic elements for low-temp NOx oxidation. Blockchain integration provides verifiable data for Singapore carbon tax compliance.

Global Benchmarking

Ulsan, Korea: RTO+SCR integration reduced NOx by 98%.

Norway: RTOs achieve SO2 compliance under 50 mg/Nm³ per the Pollution Control Act.

Technical Specs & Maintenance
成分 维护 Freq
Scrubber Filters Media inspection/replacement Monthly
pH Sensors Calibration for efficacy Quarterly
Valve Gears Lubrication and seal check Quarterly
Recirc. Pumps Redundancy check (N+1) Cont.

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