Beltran: The technology of choice for a full range of industrial applications

Constantly evolving industrial technologies and environmental regulations pose extraordinary challenges in the design and manufacture of air pollution control and new energy systems. That’s why the hallmark of every Beltran solution is flexibility—the ability to adapt, expand and perform efficiently and reliably under operating conditions that are increasingly complex and changeable.

Beltran’s comprehensive yet flexible approach means individual components can be added, modified, enhanced or replaced in response to technological advances or new regulatory requirements, or to achieve greater efficiencies or competitive advantages. No matter how or where your company operates, Beltran can design and implement a site-specific, cost-efficient solution to meet your emission control needs.

Find a Beltran solution for your application.
(Selected Industrial Applications and Emission Types)

 

 

PRIMARY EMISSION TYPES

INDUSTRY	Acid Gases (SO2, HCI)	Particulates, Submicron Aerosols	Heavy Metals	NOx	Smoke and Oils	VOCs
Automotive
Biomass Gasification: Agricultural
Biomass Gasification: Municipal Waste
Biomass Gasification: Forestry, Wood
Cement
Chemicals
Electronics Manufacturing
Fertilizers
Food
Fossil Fueled Boilers
Glass
Minerals & Metallurgy
Petrochemicals FCC/FRU
Pharmaceuticals
Plastics
Power plants, Utilities
Printing
Pulp and Paper
Steel
Textiles
Waste Incineration

 

BELTRAN SOLUTIONS

Acid Gases Control and Byproduct Recovery (SO2/HCl)	A) Separated packed towers for acid recovery 1. HCl-concentrated with water removal 2. SO2-reacted with ozone for Sulfuric Acid (H2SO4) production 3. Microfiltration system for particulate removal, acid purity B) Internal packed towers with alkaline reaction/removal for emission control C) Wet Electrostatic Precipitator (WESP) or Fume Coalescer for acid mist collection D) Recirculating fogging/scrubbing system with pH control E) Evaporation and solids removal for wastewater recycling F) Non-equilibrium plasma for SO2 reduction
Particulates, Submicron Aerosols	A) Low-energy scrubber for large particulate removal (≥ 0.1 micron) B) WESP for submicron particle collection C) Recirculating fogging/wash system for collected particle removal D) Cross-flow microfiltration for water cleaning and reuse E) Vacuum filtration for solids disposal, water reuse
Heavy Metals	A) Subcooling for metal condensation B) Internal scrubbing for metal complexing C) WESP for submicron particle collection D) Recirculating fogging/wash system for collected particle removal E) Precipitation/microfiltration for water cleaning and reuse
NOx, Acid Gases	A) Upstream noncatalytic ammonia-based treatment B) WESP for ammonia slip removal C) Recirculating fogging/ scrubbing system for reacted ammonia reuse D) Concentrated waste water injection into boiler for ammonia reuse E) Proprietary reagents with packed tower F) Non-equilibrium plasma
Smoke and Oils	A) Subcooling for additional condensation B) Wet or Dry Electrostatic Precipitators and/or Fume Coalescer for aerosol collection C) Recirculating fogging/wash system for collected particle removal D) Oil skimming system for water reuse
VOCs	A) Mist scrubbing/oxidation B) Subcooling for VOC condensation C) WESP or Fume Coalescer for aerosol collection D) Recirculating water system with oxidation for particle removal and destruction
BIOMASS GASIFICATION and COGENERATION (Waste-to-Energy)	Beltran Biomass Cogeneration System: An integrated waste-to-energy solution using gasification on a variety of carbonaceous feedstocks to produce syngas for combined heat and power, marketable byproducts. A) GASIFICATION: Thermochemical reactor vessel with cyclone separator produces combustible synthesis gas, char, ash and trace emissions. B) CLEANING: WESP removes submicron particulates, impurities and recoverable chemicals from syngas. C) GENERATION: IC Engine burns syngas fuel to drive electric generator; surplus heat used for local heating, or steam turbine co-generator. D) COMMERCIAL BYPRODUCTS: Purified syngas a potential source of hydrogen (for fuel cells), synfuels, ethanol, methanol, petrochemical intermediates, etc.