Following two years of extensive testing and development, Direnza is proud to present a revolution in engine mount design. Based on the findings of research into the limitations of conventional engine mounts, Direnza's new design dramatically increases the strength of the connection between engine and vehicle chassis compared with stock mounts, significantly reducing a motor’s movement under load and during hard cornering. Created by automotive engineers using sophisticated CAD software, and honed with finite element analysis (FEA), Direnza's new engine mounts noticeably improve throttle and turn-in response, as confirmed by professional drivers during road and track testing sessions. Enhancing the appearance of any engine bay, the mount bodies are manufactured from aircraft grade 6061-T6 aluminum anodized black, and are complemented by stiff poly bushings finished in contrasting red. As a special touch, the Direnza logo is machine-etched into the mount body.
Direnza
Following two years of extensive testing and development, Direnza is proud to present a revolution in engine mount design. Based on the findings of research into the limitations of conventional engine mounts, Direnza's new design dramatically increases the strength of the connection between engine and vehicle chassis compared with stock mounts, significantly reducing a motor’s movement under load and during hard cornering. Created by automotive engineers using sophisticated CAD software, and honed with finite element analysis (FEA), Direnza's new engine mounts noticeably improve throttle and turn-in response, as confirmed by professional drivers during road and track testing sessions. Enhancing the appearance of any engine bay, the mount bodies are manufactured from aircraft grade 6061-T6 aluminum anodized black, and are complemented by stiff poly bushings finished in contrasting red. As a special touch, the Direnza logo is machine-etched into the mount body.
Direnza
Performance increase of +15.7hp / + 10.6nm Intake temps reduced by 46°c Overall temperature drop of 106.4°c Designed using state of the art CAD and CFD modelling software Black coating improves heat dissipation properties Direct replacement for the original intercooler TIG welded for maximum strength and durability MVT technology designed by Direnza offers greater intercooler efficiency in comparison to other aftermarket alternatives. This is achieved through the use of carefully placed vanes in the end tank which evenly distribute air across the entire core. Ensuring the full surface area of the intercooler core is optimised to cool your charged air, resulting in more power. Test car: Mini R56 Cooper S Stage 1 229.2hp /339.9nm Put through its paces on a state-of-the-art Maha MSR 500 Dyno, our Multi Vane Technology Intercooler for the R56 yielded some highly impressive results. After installing our revolutionary MVT Intercooler, engine performance improved significantly. With the Mini now producing 244.9hp & 350.5nm of torque, that’s an increase of +15.7hp & 10.6nm of torque! What’s more impressive is the cooling power of MVT. Using sophisticated data logging software, we measured stock intake temperatures at 81°c. With MVT, intake temperatures dropped by 46°c! Thus, providing huge tuning potential and greater reliability when combined with a remap & supporting modifications. The perfect addition to any track or modified road car! We also went one step further by placing temperature probes into the inlet and outlet of the Intercooler. This allows us to accurately compare the difference in temperatures as the charged air passes though the core. Data for the stock intercooler showed us charged air temperatures dropped from 141.3°c(inlet) to 82.1°c(outlet). However, this figure was reduced down to 34.9°c(outlet) thanks to the efficiency of our MVT Intercooler. Providing an overall temperature drop of 106.4°c.
Direnza
Black coating improves heat dissipation properties Carefully crafted using state of the art 3D CAD and CFD modelling Direct replacement for the original core Does not require removal of the crash bar like other aftermarket alternatives Fully TIG welded for maximum strength and durability MVT technology designed by Direnza offers greater intercooler efficiency in comparison to other aftermarket alternatives. This is achieved through the use of carefully placed vanes in the end tank which evenly distribute air across the entire core. Ensuring the full surface area of the intercooler core is optimised to cool your charged air, resulting in more power.
Direnza
Black coating improves heat dissipation properties Carefully crafted using state of the art 3D CAD and CFD modelling Direct replacement for the original setup Provided an instant boost of +30.3hp and +35Ft/lb on our test car Fully TIG welded for maximum strength and durability MVT technology designed by Direnza offers greater intercooler efficiency in comparison to other aftermarket alternatives. This is achieved through the use of carefully placed vanes in the end tank which evenly distribute air across the entire core. Ensuring the full surface area of the intercooler core is optimised to cool your charged air, resulting in more power.
Direnza
Following two years of extensive testing and development, Direnza is proud to present a revolution in engine mount design. Based on the findings of research into the limitations of conventional engine mounts, Direnza's new design dramatically increases the strength of the connection between engine and vehicle chassis compared with stock mounts, significantly reducing a motor’s movement under load and during hard cornering. Created by automotive engineers using sophisticated CAD software, and honed with finite element analysis (FEA), Direnza's new engine mounts noticeably improve throttle and turn-in response, as confirmed by professional drivers during road and track testing sessions. Enhancing the appearance of any engine bay, the mount bodies are manufactured from aircraft grade 6061-T6 aluminum anodized black, and are complemented by stiff poly bushings finished in contrasting red. As a special touch, the Direnza logo is machine-etched into the mount body.
Direnza
+11.6hp / + 20.1nm Intake temps reduced by 32°c Temperature drop of 137°c 109% larger than stock Designed using state of the art CAD and CFD modelling software Black coating improves heat dissipation properties Direct replacement for the original intercooler TIG welded for maximum strength and durability MVT technology designed by Direnza offers greater intercooler efficiency in comparison to other aftermarket alternatives. This is achieved through the use of carefully placed vanes in the end tank which evenly distribute air across the entire core. Ensuring the full surface area of the intercooler core is optimised to cool your charged air, resulting in more power. Test car: Hyundai i30N 2019 (Stage 1) 297.3hp /425.9nm Put through its paces on a state-of-the-art Maha MSR 500 Dyno, our Multi Vane Technology Intercooler for the Hyundai i30N platform yielded some highly impressive results. After installing our revolutionary MVT Intercooler, engine performance improved significantly. With the i30N now producing 308.9hp & 446nm of torque, that’s an increase of +11.6hp & 20.1nm of torque! What’s more impressive is the cooling power of MVT. Using sophisticated data logging software, we measured stock intake temperatures at 62°c. With MVT, intake temperatures dropped by 32°c, that is a reduction of 52%! Thus, providing huge tuning potential and greater reliability when combined with a remap & supporting modifications. The perfect addition to any track or modified road car! We also went one step further by placing temperature probes into the inlet and outlet of the Intercooler. This allows us to accurately compare the difference in temperatures as the charged air passes though the core. Data for the stock intercooler showed us charged air temperatures dropped from 168°c(inlet) to 70°c(outlet). However, this figure was reduced by 56% down to 31°c(outlet) thanks to the efficiency of our MVT Intercooler. Providing an enormous overall temperature drop of 137°c (82%). Stock Core Volume: 7,100cm3 MVT Stepped Core Volume: 14,900cm3
Direnza
+5.8hp / + 15.2nm Intake temps reduced by 28°c Temperature drop of 101.7°c (75%) 66% larger than stock Designed using state of the art CAD and CFD modelling software Black coating improves heat dissipation properties Direct replacement for the original intercooler TIG welded for maximum strength and durability MVT technology designed by Direnza offers greater intercooler efficiency in comparison to other aftermarket alternatives. This is achieved through the use of carefully placed vanes in the end tank which evenly distribute air across the entire core. Ensuring the full surface area of the intercooler core is optimised to cool your charged air, resulting in more power. Test car: Volkswagen Golf MK7 R 2.0 TSI 336.6hp /418.1nm Put through its paces on a state-of-the-art Maha MSR 500 Dyno, our Multi Vane Technology Intercooler for the MQB platform yielded some highly impressive results. After installing our revolutionary MVT Intercooler, engine performance improved significantly. With the MK7 now producing 342.4hp & 433.3nm of torque, that’s an increase of +5.8hp & 15.2nm of torque without any additional tuning. What’s more impressive is the cooling power of MVT. Using sophisticated data logging software, we measured stock intake temperatures at 64°c. With MVT, intake temperatures dropped by 28°c! Thus, providing huge tuning potential and greater reliability when combined with a remap & supporting modifications. The perfect addition to any track or modified road car! We also went one step further by placing temperature probes into the inlet and outlet of the Intercooler. This allows us to accurately compare the difference in temperatures as the charged air passes though the core. Data for the stock intercooler showed us charged air temperatures dropped from 134.4°c(inlet) to 57.8°c(outlet). However, this figure was reduced down to 32.7°c(outlet) thanks to the efficiency of our MVT Intercooler. Providing an overall temperature drop of 101.7°c. Intercooler Core Size OEM: 36mm x 409mm x 619 MVT: 60mm x 409 x 619
Direnza