Rongjian manufactures tower packing for mass transfer columns used in distillation, absorption, scrubbing, stripping and degassing. We make both random packing and structured packing, in ceramic, metal and plastic, together with the tower internals that support and feed the bed.
The material follows the duty. Ceramic runs to about 1200°C and resists strong acid and alkali, so it stays the default for hot corrosive service. Metal in SS304, SS316, SS316L and carbon steel gives thin walls, high capacity and the strength for vacuum and high-pressure columns. Plastic covers PP, PE, PVC, CPVC, PVDF, PTFE, PFA and FEP for cold, aggressive streams.
These are typical production ranges for Rongjian random and structured packing in ceramic, metal and plastic. Exact figures for each size are on the matching product datasheet.
| PACKING TYPE | MATERIAL | SIZES (MM) | VOID FRACTION (%) | SPECIFIC SURFACE (M²/M³) | BULK DENSITY (KG/M³) | MAX TEMP (°C) | KEY FEATURE |
|---|---|---|---|---|---|---|---|
| Ceramic Pall Ring | CERAMIC | 25 – 80 | 73 – 80 | 75 – 238 | 520 – 600 | 1200 | Open-window ring for acid and high-temperature service |
| Ceramic Raschig Ring | CERAMIC | 6 – 100 | 62 – 80 | 46 – 712 | 600 – 1050 | 1200 | Simple, lowest cost, classic acid-tower packing |
| Ceramic Intalox Saddle | CERAMIC | 25 – 76 | 74 – 77 | 95 – 250 | 500 – 700 | 1200 | Saddle shape, higher flux than rings |
| Ceramic Super Saddle | CERAMIC | 25 – 76 | 78 – 82 | 58 – 160 | 550 – 650 | 1200 | High void, used in sulphuric acid plants |
| Ceramic Cascade Mini Ring | CERAMIC | 25 – 76 | 73 – 78 | 75 – 210 | 530 – 650 | 1200 | Low height-to-diameter, low pressure drop |
| Plastic Pall Ring | PLASTIC | 16 – 100 | 88 – 94 | 58 – 320 | 40 – 108 | 60 – 280* | Lightweight, low pressure drop |
| Plastic Cascade Mini Ring | PLASTIC | 16 – 76 | 85 – 93 | 90 – 370 | — | 60 – 280* | High efficiency, low resistance |
| Plastic Intalox / Super Saddle | PLASTIC | 25 – 76 | 85 – 98 | 130 – 288 | 59 – 102 | 60 – 280* | Saddle shape, chemical resistant |
| Plastic Tri-Pack / Hollow Ball | PLASTIC | 25 – 100 | 90 – 92 | 214 – 460 | 52 – 75 | 60 – 280* | Very high void, scrubbing and water treatment |
| Metal Pall Ring | METAL | 10 – 76 | 94 – 96 | 71 – 482 | 262 – 560 | 800+ | Standard for high-pressure columns |
| Metal Cascade Mini Ring | METAL | 25 – 76 | 96 – 98 | 73 – 220 | — | 800+ | Thin wall, high capacity |
| Metal IMTP / Intalox | METAL | 25 – 76 | 95 – 99 | 61 – 344 | 106 – 203 | 800+ | Low pressure drop, high efficiency |
| Metal Raschig Ring | METAL | 6 – 89 | 89 – 97 | 61 – 904 | 224 – 900 | 800+ | Robust, also used as catalyst support |
| Ceramic Corrugated (Structured) | CERAMIC | 125Y – 700Y | 72 – 90 | 125 – 700 | 320 – 650 | 800 | Acid and high-temperature structured packing |
| Metal Perforated Corrugated | METAL | 125 – 500 | 92 – 98 | 125 – 500 | 53 – 180 | 800+ | General-purpose metal structured packing |
| Metal Wire-Mesh Corrugated | METAL | 250 – 700 | 87 – 97 | 250 – 700 | 50 – 410 | 800+ | Vacuum and high-purity distillation |
| Plastic Perforated Corrugated | PLASTIC | 125 – 500 | 92 – 98 | 125 – 500 | 37 – 150 | 60 – 280* | Corrosive service, low pressure drop |
* Plastic maximum temperature depends on the polymer: general-purpose PP around 100°C, up to roughly 280°C for PVDF, PTFE, PFA and FEP grades.
Our packing runs in packed columns across petrochemical, chemical, pharmaceutical, environmental and power plants. The same rings and saddles cover very different duties once the material and size are set. The four below account for most of what buyers order it for.
We have made tower packing since 2010, out of Pingxiang, the largest packing production base in China. Hundreds of column specifications have run through this factory across petrochemical, chemical, pharmaceutical and environmental projects. Packing is the only thing we make, so the people answering a technical question have built the part themselves.
We hold pall rings, raschig rings, intalox saddles, cascade mini rings, cross rings, heilex rings, tri-packs and structured packing in stock, in ceramic, metal and plastic, in sizes from 16 mm to 100 mm. A non-standard size, a specific alloy or a particular polymer is made to order.
The material is matched to the service rather than left to the buyer. Ceramic packing goes into hot, acidic and corrosive duty; metal packing in stainless and higher alloys takes the strength and the heat; and plastic packing in polypropylene, PVC and other polymers suits cooler, aggressive streams. We pick the material from the temperature and the chemistry of the column, so the packing holds up in service.
The packing and the column internals come from one source, so the parts match. Alongside the random and structured packing we make the liquid distributors, support plates, hold-down plates and bed limiters that go with it, built to the same column. Ordering the packing and the internals together means one supplier and parts that fit on site, instead of chasing pieces from several places.
Every batch is tested before it ships, and the report goes with it. Each lot is checked for size, wall thickness, bulk density and surface area, the properties that decide how the packing performs, and the test report is sent against the order. The packing that arrives is then the packing that was specified, with the figures to prove it on a column that has to meet a guarantee.
We are a factory, not a trading company. Every product ships from our own production lines in Pingxiang. You deal with the people who actually make the product.
learn more about usMatch the material to the chemistry and temperature first. Ceramic takes hot corrosive acid service and runs to about 1200°C, but it is brittle and not suited to hydrofluoric acid. Metal in stainless or carbon steel gives the strength and capacity for vacuum and high-pressure columns. Plastic from PP to PTFE handles cold aggressive streams at lower cost. The medium, temperature and allowable pressure drop point to one of them.
Random packing is loose pieces poured into the bed, and structured packing is stacked corrugated sheet. Random packing handles fouling, solids and load swings well and costs less, which suits scrubbers and many revamps. Structured packing gives lower pressure drop and higher efficiency, so it wins in vacuum service and tall high-purity columns.
There is a trade-off. Larger packing raises capacity but lowers efficiency, and smaller packing lifts efficiency but adds pressure drop. The right size meets the separation target at the design throughput without flooding. The packing factor, surface area and void fraction are the numbers to compare.
Yes, and it is the choice buyers most often get wrong alone. We carry ceramic, all common steels, and the full plastic range from PP, PE, PVC and CPVC up to PVDF, PTFE, PFA and FEP, matched to the acid, alkali, solvent or oxidizer in the stream.
Yes. A bed needs a support plate, a liquid distributor and a hold-down plate to work properly. We make the tower internals with the packing, so the parts share one tolerance and fit the column on the first try.
Yes. Standard sizes run from 16 mm to 100 mm, and beyond that we tool non-standard rings, saddles and mini rings and produce specific alloys and polymers. Custom work is routine here.
Most packing problems trace back to a choice made before the order: the wrong material, the wrong size, or a bed with no proper liquid distribution. This is the order we work through with buyers.
The chemistry and temperature of the stream decide the material before anything else. Ceramic resists strong acid and alkali and holds up to roughly 1200°C, which keeps it standard for sulphuric and hydrochloric acid service, though it is brittle and should not see hydrofluoric acid or sharp thermal shock. Metal in stainless or carbon steel gives thin walls, high capacity and the mechanical strength for vacuum and high-pressure columns; carbon steel is cheaper for non-corrosive duty, while stainless avoids chloride attack. Plastic, including PP, PE, PVC, CPVC, PVDF, PTFE, PFA and FEP, handles aggressive chemicals at low cost but is limited by temperature, with general-purpose PP usually kept under about 120°C.
Random packing is loose rings and saddles dumped into the bed. It tolerates fouling, solids and frequent load changes, installs easily and costs less, so it fits scrubbers, absorbers and revamp columns. Structured packing is stacked corrugated sheet that delivers lower pressure drop and higher efficiency per metre, which matters in vacuum distillation and tall, high-purity columns. At the same capacity random packing usually carries a higher pressure drop, but its hydraulics stay more stable when the load moves around.
For random packing, size is a direct trade-off. Larger pieces raise capacity but lower efficiency; smaller pieces do the reverse and add pressure drop. Choosing by habit instead of duty is how columns end up flooding or missing spec. The packing factor, specific surface area and void fraction in the table above are the numbers to compare when two sizes are on the table.
A packed bed only performs if liquid stays evenly spread. Tall random beds need a redistributor every five to ten column diameters, and every bed needs a support plate under it and a hold-down plate on top. We build these tower internals with the packing so the support free area, the distributor drip points and the packing all match one column.
Knowing the lineage helps with selection. Raschig rings are the original first-generation media, simple and cheap, and now mostly replaced. Pall rings opened the ring wall for more surface and better flow. Intalox and super saddles improved liquid spreading, and cascade mini rings lowered the height-to-diameter ratio to cut pressure drop further. Newer high-void shapes such as tri-packs and hollow balls push void fraction past 95% for low-resistance scrubbing and water-treatment duty.