Compressed Natural Gas (CNG) Drying

The Operational Constraint

Moisture in compressed natural gas threatens vehicle fuel systems by causing freezing in gas lines and corrosion from liquid water. High pressures and temperature changes in CNG storage and fueling worsen these failures. Achieving and maintaining ultra-low moisture levels before compression is essential for reliable CNG operation.

Why Natural Gas Must Be Dried Before Compression

Drying natural gas before compression removes water that can impair engine performance and system reliability. In cold conditions, residual moisture can freeze in fuel lines, making vehicles inoperable and causing unplanned downtime. Liquid water can also cause corrosion that damages storage vessels, piping, and downstream components. Because these risks arise during compression, drying must occur upstream and maintain moisture control through changing operating conditions.

CNG Dew Point Requirements and Safety Standards

CNG systems are governed by stringent moisture limits intended to prevent liquid water formation across all operating conditions. ISO 15403:2000 specifies that compressed natural gas must maintain a very low dew point to preclude liquid water formation, which can lead to corrosion through interaction with carbon dioxide and hydrogen sulfide.

Pressure cycling during fuel consumption and refilling accelerates material degradation when moisture is present, increasing the risk of crack growth and system failure. Achieving and maintaining low dew points is a safety and reliability requirement, not a performance preference. These requirements limit which drying media can be used.

Drying Media for Ultra-Low Moisture Control in CNG

Compressed natural gas used as vehicle fuel must be dried to a pressure dew point of at least -100°F. At this dryness, water vapor will not condense into liquid, even under high compression. Achieving a -100°F dew point usually means moisture levels below 0.5 ppmv, depending on pressure and climate.

At these concentrations, moisture behavior becomes nonlinear. Small changes in water content can determine whether liquid water forms inside storage vessels, piping, or vehicle fuel systems. Drying performance must be evaluated not only on average outlet moisture but also on the ability to consistently suppress condensation across operating cycles.

Molecular sieves are crystalline aluminosilicate materials with uniform pore structures that selectively adsorb molecules by size and polarity. In compressed natural gas drying, molecular sieves are used because they retain a strong affinity for water vapor even at low partial pressures, where other desiccants lose effectiveness.

Molecular sieves remove moisture at trace levels required for CNG applications. This enables them to achieve and maintain ultra-low dew points under high pressure, making molecular sieves the established desiccant for CNG systems with low moisture tolerance. At these moisture levels, drying performance depends on consistency and support as much as adsorption capability.

Assumptions That Undermine CNG Drying Performance

In CNG drying, it is often assumed that all molecular sieves perform the same and that supplier differences are secondary once a dew point target is set. In practice, neither assumption holds. Molecular sieve performance at sub-ppm moisture levels is sensitive to bead quality, consistency, and regeneration behavior, which vary across manufacturers. Key factors in evaluating suppliers include product consistency, technical support, and proven field performance. Seek suppliers that provide documentation of product reliability and a history of success in demanding environments.

Supplier support is not interchangeable. Differences in application knowledge, specification discipline, and inventory strategy directly affect system reliability and maintenance planning. Suppliers that treat molecular sieves as commodities may meet initial specifications but fail to anticipate operational demand, maintain consistent product quality, or support timely replacement. In CNG service, where moisture tolerance is tight and downtime is costly, these gaps translate directly into operational risk.

Interra Global's Role in CNG Drying Applications

Interra Global supports compressed natural gas drying by supplying molecular sieve desiccants engineered for ultra-low moisture control and consistent performance under demanding conditions. Our approach emphasizes application alignment, product quality, and supply reliability to support sustained CNG system operation.

Next Steps

Review molecular sieve drying solutions for compressed natural gas applications and explore product specifications aligned with your CNG system requirements. Technical support is available to assist with molecular sieve selection and supply planning.