Built for Shanghai Diesel Engine Co. (SDEC) generator sets, this radiator combines heavy-duty materials with precision manufacturing to provide stable cooling under varying loads. Its high-efficiency core maximizes heat exchange, while robust tanks and corrosion-resistant finishes ensure long service life. Perfect for urban backup systems, remote operations, and industrial prime power applications.
| No. | Model | Installation Dimensions Diameter*Center Height (Φ550*600mm) |
Radiator Dimensions Height*Width*Thickness |
Water Capacity (L) |
Weight (KG) |
Heat Dissipation Area (M²) |
| 1 | 12M36KTA-G3 | φ1840*1185mm | 2314*2119*781mm | 112.7 | 316.5 | |
| 2 | 12V135AZD | Φ1160*766mm | 1545*1306*522*337mm | 38 | 90.5 | 61.5 |
| 3 | 12V135AZLD | Φ1160*766mm | 1545*1300*624.5*549.5mm | 38 | 125 | 61.5 |
| 4 | 12V135BZLD | Φ1160*766mm | 1545*1356*615mm | 41.1 | 127 | 79.3 |
| 5 | 12V135BZLD-500KW | Φ1350*861mm | 1803*1456*625*529mm | 46.7 | 150.5 | 101.6 |
| 6 | 12V138AZLD-KP | Φ1180*818mm | 1765*1456*650*560mm | 46.7 | 153.5 | 101.6 |
| 7 | 4135D | Φ658*459mm | 932*816*337*307mm | 11.3 | 28.5 | 47.9 |
| 8 | 6135AD | Φ680*471mm | 995*856*386mm | 18.8 | 42.5 | 22.9 |
| 9 | 6135AZLD | Φ890*625mm | 1269*956*599505mm | 23.8 | 75 | 35.6 |
| 10 | 6135BZLD | Φ890*606mm | 1238*956*504mm | 23.1 | 79 | 46.3 |
| 11 | 6138CZLD | Φ1000*676mm | 1410*1106*600*380mm | 27.7 | 92 | 59.4 |
| 12 | 644 | Φ700*720mm | 1249*906*457*337mm | 22.9 | 51.5 | 33 |
| 13 | 646 | Φ890*631mm | 1265*1006*486*431mm | 25.1 | 59 | 37.6 |
| 14 | DCV1300 | φ1740*1040mm | 2199*1919*772*512mm | 82.7 | 267.8 | |
| 15 | DSV565 | Φ1350*861mm | 1803*1456*625*529mm | 46.7 | 160 | 101.6 |
| 16 | DSV630 | Φ1350*921mm | 1885*1625*625mm | 60.2 | 208 | 164.1 |
| 17 | DSV680 | Φ1350*921mm | 1885*1625*625mm | 60.2 | 211.5 | 164.1 |
| 18 | G128ZLD-I | Φ890*644mm | 1321*1226*576*371mm | 32.4 | 74 | 37.6 |
| 19 | G128ZLD-II | Φ970*714mm | 1461*1395*554*374mm | 30.2 | 92 | 50.4 |
| 20 | HGPBJ-600KW-DCV550-100040 | Heat exchanger | 1851*1500*515mm | Heat exchanger | Heat exchanger | |
| 21 | HGPBJ---600KW-SD510-610-1 | Heat exchanger | 1851*1500*515mm | Heat exchanger | 0 | Heat exchanger |
| 22 | HGPBJ---KPV1100-100040100 | Heat exchanger | 2240*1830*675mm | Heat exchanger | Heat exchanger | |
| 23 | HGPBJ---SYZ338TAD123-1000 | 395*480mm | 2050*1830*930mm | 171 | 11.25 | |
| 24 | JMV840-D | Electric Motor Drive | 1923*1772*787mm | 64.4 | 120.2 | |
| 25 | KD15H375 | Φ970*716mm | 1445*1106*550*483mm | 29 | 106 | 47.6 |
| 26 | KP12G610-G3 | φ1350*951mm | 1875*1456*650*403mm | 65.4 | 193 | 141.1 |
| 27 | KP206 | φ800*720mm | 1175*1006*467mm | 28.3 | 0 | 40.9 |
| 28 | KP310 | Φ1000*676mm | 1405*1105*600*505mm | 27.7 | 101 | 59.4 |
| 29 | KP350 | Φ1000*676mm | 1405*1105*600*505mm | 27.7 | 103 | 59.4 |
| 30 | KP425 | Φ960*715mm | 1480*1156*590507mm | 38 | 114 | 61.1 |
| 31 | KP441 | Φ1030*716mm | 1475*1155*590*510mm | 38 | 122 | 61.1 |
| 32 | KP540 | Φ1160*766mm | 1545*1306*635*435mm | 41.5 | 130.5 | 104.7 |
| 33 | KP9D340 | Φ810*581mm | 1180*956*554*484mm | 26 | 79 | 30.9 |
| 34 | KP9DG34 | Φ795*646mm | 1305*1055*525mm | 31.8 | 102 | 68.8 |
| 35 | KPG128ZLS | Φ1030*716mm | 1475*1355*590*505mm | 45 | 136.5 | 71.7 |
| 36 | KPG128ZLS | φ1030*716mm | 1475*1356*590*380mm | 41.3 | 138 | 101.1 |
| 37 | KPV1100-D | Four Motors | 2100*1870*870*567mm | 77.2 | 420 | 195.9 |
| 38 | KPV1300-D | Four Motors | 2054*1871*850mm | 71.4 | 425 | 215.4 |
| 39 | KPV441 | Φ960*716mm | 1480*1156*590507mm | 38 | 113.5 | 61.1 |
| 40 | KPV720 | Φ1350*915mm | 2000*1736*730*634mm | 56 | 246.5 | 193.5 |
| 41 | KPV800-D | Electric Motor Drive | 1964*1719*787mm | 64.4 | 120.2 | |
| 42 | KPV936 | Φ1350*911mm | 2000*1736*730*634mm | 59.7 | 250.5 | 191.1 |
| 43 | KT30G1270TLD-D | Electric Motor Drive | 2065*1870*870*512mm | 77.4 | 238.1 | |
| 44 | KT30G1360TLD-D | Φ822*1040mm | 2200*1965*820mm | 107.7 | 503 | 267.8 |
| 45 | KTG128ZLS | Φ1030*716mm | 1475*1356*510mm | 45 | 137.5 | 71.7 |
| 46 | QN13H517 | Φ1050*730mm | 1461*1395*539*346mm | 40.8 | 96.5 | 83.2 |
| 47 | QN15H571 | Φ1160*766mm | 1545*1305*635*435mm | 39.4 | 157 | 75.4 |
| 48 | QN28H1100 | Φ1415*912mm | 1995*1726*730*500mm | 59.7 | 253 | 191.1 |
| 49 | QN28H1210-D | Four Motors | 2065*1870*870*512mm | 77.2 | 413.5 | 195.9 |
| 50 | QN32H1480-D- | Φ1*1040mm | 2169*1919*818mm | 82.7 | 504.5 | 267.8 |
| 51 | QN8H217 | Φ810*581mm | 1180*956*554*379mm | 26.8 | 85 | 38.6 |
| 52 | QN8H245 | Φ810*581mm | 1180*956*554*379mm | 27.8 | 87.5 | 53.6 |
| 53 | QN8H245-D | Electric Motor Drive | 1175*956*720mm | 29 | 121 | 66.8 |
| 54 | QN9H340-1-308 | Φ795*646mm | 1315*1005*580*525mm | 30.2 | 0 | 65.1 |
| 55 | QN9H340-308 | Φ795*646mm | 1305*1056*579*404mm | 31.8 | 94 | 68.8 |
| 56 | QND9H245-G3 | φ810*581mm | 1175*956*554*379mm | 27.8 | 87 | 53.6 |
| 57 | QND9H340-G3 | Φ795*646mm | 1305*1056*579*404mm | 31.8 | 102 | 68.8 |
| 58 | SC13G420D2T3 | Φ960*716mm | 1479*1156*590*380mm | 38 | 0 | 61.1 |
| 59 | SC15G500D2T3 | φ960*716mm | 1475*1156*590*380mm | 37.9 | 114 | 53 |
| 60 | SD1400-D | Electric Motor Drive | 2205*1965*818*512mm | 82.7 | 507 | 267.8 |
| 61 | SD515 | Φ1160*766mm | 1545*1306*635*435mm | 39.4 | 138 | 75.4 |
| 62 | SDD206 | Φ795*646mm | 1305*1055*525mm | 31.8 | 68.8 | |
| 63 | SDV450 | Φ960*716mm | 1475*1155*510mm | 37.9 | 114.5 | 53 |
| 64 | SY302TAD97A | Φ1420*992mm | 2144*1819*751*489mm | 83.2 | 278 | 195.9 |
| 65 | SY302TAD97-D | Φ1*990mm | 2054*1819*847mm | 77.2 | 195.9 | |
| 66 | SY970-D | Four Motors | 2070*1906*875*512mm | 77.2 | 422 | 195.9 |
| 67 | SYD83TAD23 | Φ810*581mm | 1180*956*554*379mm | 28.9 | 81 | 38.6 |
| 68 | SYD88TAD26 | Φ810*567mm | 1180*956*554554mm | 30 | 83.5 | 53.6 |
| 69 | SYG148TAD42 | Φ1090*716mm | 1475*1256*590*380mm | 45.2 | 125.5 | 111 |
| 70 | SYG148TAD42T3 | φ1090*716mm | 1475*1256*590*380mm | 43.2 | 0 | 91.3 |
| 71 | SYG157TAD50 | Φ1090*716mm | 1475*1256*590*380mm | 45.2 | 113.8 | |
| 72 | SYG157TAD50T3 | φ1090*716mm | 1475*1256*590*380mm | 45.2 | 140.5 | 113.8 |
| 73 | SYG266TAD75G3 | φ1340*921mm | 1845*1626*673*450mm | 69.9 | 0 | 191.3 |
| 74 | SYG283TAD79 | Φ1416*912mm | 1995*1726*634mm | 59.7 | 191.1 | |
| 75 | SYG302TAD88A | Φ1420*912mm | 2054*1819*771*511mm | 83.2 | 278 | 195.9 |
| 76 | SYG302TAD88-D | Φ1*990mm | 2064*1819*847mm | 77.2 | 159.9 | |
| 77 | SYZ253TAD51 | Φ1340*951mm | 1880*1586*670*450mm | 66.9 | 0 | 107.7 |
| 78 | SYZ253TAD57 | Φ1340*951mm | 1880*1586*670*450mm | 66.9 | 0 | 107.7 |
| 79 | SYZ253TAD63 | Φ1330*920mm | 1874*1576*739*450mm | 69.8 | 0 | 149.4 |
| 80 | SYZ253TAD68 | Φ1368*951mm | 1880*1586*670*580mm | 69.8 | 212.5 | 149.4 |
| 81 | SYZ253TAD75 | Φ1330*920mm | 1879*1576*739*450mm | 73.1 | 235 | 186 |
| 82 | SYZ253TAD97 | φ1330*921mm | 1879*1776*759*470mm | 87 | 420.5 | 260.8 |
| 83 | SYZ25ABD820 | Φ1330*920mm | 1874*1586*670*450mm | 76.6 | 234 | 228.6 |
| 84 | SYZ338TAD110 | Φ1465*1120mm | 2244*1919*791*511mm | 98.4 | 0 | 329 |
| 85 | SYZ338TAD110-D | Φ822*1120mm | 2255*1920*820mm | 88.8 | 0 | 215 |
| 86 | SYZ338TAD1200-D | Φ822*1170mm | 2350*2220*1133mm | 117.3 | 0 | 409.6 |
| 87 | SYZ338TAD123-D | Φ1*1170mm | 2344*2220*818mm | 105.6 | 316.5 | |
| 88 | TZ12V138AZLD | Φ1350*921mm | 1885*1625*625mm | 60.2 | 198.5 | 164.1 |
| 89 | TZ6135BZD | φ800*606mm | 1270*956*496*336mm | 22.2 | 0 | 35.6 |
| 90 | WL-6114(180KW) | Φ790*581mm | 1175*956*470mm | 27.8 | 53.6 | |
| 91 | WY4100 | φ470*344mm | 707*606*199mm | 6.8 |
From our beginnings in generator set and radiator manufacturing in 2003, we've now expanded our business to over 30 countries with a workforce of more than 250 employees. As an established R&D and manufacturing enterprise for generator set radiators, OEM SDEC Generator Radiators Manufacturers and SDEC Generator Radiators Suppliers, operates two standardized production bases spanning over 60,000 square meters. With a technical team of 50+ core engineers, we have built a comprehensive industrial system covering R&D, production, and testing, achieving an annual production capacity of 150,000 units/sets. As SDEC Generator Radiators Factory, Professional advanced sheet metal radiator manufacturing equipment to ensure the quality of the products, high efficiency and delivery guarantee.
News and Information
Industry Knowledge
When you compare SDEC generator radiators, the most practical decision point is not “looks similar” but the heat load the radiator must reject at your site conditions. Two sets with the same SDEC engine can need very different cooling capacity once you factor in ambient temperature, altitude, enclosure restriction, and whether you run prime vs standby. If you want fewer callbacks and fewer derates, I always recommend sizing with margin rather than cutting it close.
If you share those four bullets, I can usually help you land on a right-first-time build instead of “trial-and-error” replacements.
For generator radiators, fin density is a double-edged sword: tighter fins can increase surface area but also raise air-side pressure drop and clog faster in dusty yards. Tube layout matters too—more rows can improve capacity but increase coolant-side restriction. The best fit depends on your environment and maintenance reality, not just lab numbers.
If your goal is “set it and forget it,” the lowest-labor win is often a core/fan pairing that stays stable as the fins get slightly dirty—this is where a well-matched SDEC generator radiator package earns its keep.
Many “radiator failures” are actually airflow failures. Hot air recirculation (especially in tight rooms or canopy sets) can push inlet air temperature up until the cooling system loses headroom. A proper shroud and sealing strategy is a performance part, not cosmetic.
I like to keep marketing simple here: if the airflow is right, the radiator suddenly looks “bigger” without changing metal. That’s the kind of reliability upgrade buyers actually feel.
The fastest way to shorten radiator life is poor coolant control. Scale acts like insulation, while corrosion and electrolysis create pinholes that look like random leaks. If your operation mixes water quality sources, coolant management becomes a procurement requirement, not a maintenance afterthought.
| Risk | What it causes | What to do |
|---|---|---|
| Hard water / minerals | Scaling, hot spots, chronic overheating | Use treated/softened water and maintain correct inhibitor mix |
| Wrong inhibitor balance | Corrosion, solder bloom, tube thinning | Follow coolant spec and service interval; don’t “top up” with plain water long-term |
| Stray current / poor grounding | Electrolysis pinholes and fast leaks | Inspect grounds, bonding straps, and isolate problematic accessories |
If you’re buying for uptime, insist on a radiator build that matches your coolant discipline. In my experience, coolant control pays back faster than any “premium metal” upgrade.
For replacements, the winning move is to verify the interface dimensions before the radiator ships. “Same engine” does not always mean same frame, same mounts, or same hose routing—especially across different genset OEMs. A few measurements up front saves weeks of downtime later.
If you’re sourcing multiple units, standardizing these “fitment fields” in your purchasing checklist makes ordering generator radiators repeatable and reduces site-to-site variation. That’s exactly how I like to help buyers keep procurement clean and predictable.
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