First Time Achievements

• Innovative and revolutionary PD Blower design
• Higher flow rate compared to straight lobe blower 12 to 15% form same RPM & Delta Pressure
• Reduction in power 8 to 12% for same capacity
• Considerable reduction in vibrations compare to straight lobe machines, which result reducing the stresses on discharge pipeline & base frame
• Reduce noise level up to 3-8 dba
• Dual oil splash lubrication
• Anti-friction bearings
• Ground & Hardened taper timing gears
• Heavy duty design for reduced to downtime
• Advanced oil/air seals for reliable air delivery
• Designed for dusty, abrasive environments
• Decades of proven result !

Everest Blowers proudly announces, we have received an order for Supply of Integrally Geared Turbo Blower from one of the top PSU - EPC companies for installation in FGD process of Central Govt. owned 2 x 500 MW Thermal Power Plant.

The blower specs at Design Point are:

• Capacity: 9170 Nm3/hr
• Differential Pressure: 9350 mmWc

Our in-house R&D team has developed a new line of seal less roots blowers. These blowers find application in processes demanding 100% oil free air. The oil chambers are physically isolated from the main compression chamber, thereby ensuring 100% Oil Free Air.

Design & Manufacture of solvent recovery systems to curb pollution. These systems not only play an important role by making the process eco-friendly but also recover precious solvents for reuse. Most of the pharmaceutical processes have low boiler solvents which are undesirable if expelled into atmosphere. On installation of solvent recovery system, most of the solvent can be recovered back. The demand of such systems is growing exponentially due to increasing environmental awareness and corporate responsibility.

Vacuum Systems for Waste Oil Distillation for both continuous duty & batch processes. Custom designed, compact, skid mounted packages having a combination of pumps, inter-stage traps, demisters with process specifically engineered control panel for total automation. The process is approved by various Pollution Control Boards, is environment friendly & consumes minimal energy.

Mechanical Vacuum Booster offers an efficient replacement to steam ejector, for most of the applications, as they overcome major drawbacks associated with steam ejectors. The major advantages of Mechanical Booster being :- (a) Mechanical Vacuum Boosters are more energy efficient. (b) Minimum of auxiliary equipment is needed; unlike for steam ejectors, which need large condensers, cooling towers, re-circulation pumps etc. (c) Mechanical Vacuum Boosters are dry pumping system and don’t give rise to water and atmospheric pollution. (d) Startup time for mechanical booster is very low making them ideal for Batch process operation where immediate startup and shut down is essential for energy conservation. Apart from the above, the operating costs for mechanical vacuum systems are low, resulting in extremely short pay back period.

Everest, Leaders in Vacuum Technology, offer Dry Vacuum Pumping Systems developed using diverse designs and cross links to suit individual process requirements and act as import substitutes. Everest supplies a diverse range of vacuum systems from standard compact units to complex purpose built systems with integrated instrumentation and control panels for local or remote operation. These systems are supplied as skid mounted ready to connect units. Everest Vacuum Pumping Systems are known for their reliability and innovative design, offer unmatched quality, value & performance and are easy to use and maintain.

Design & manufacture of extended shaft Roots Blowers configuration for applications requiring 100% Oil Free Air like aeration in aquaculture farms, plating lines, STPs, etc.

Everest Group has introduced Mechanical Vapour re-compressors for recovery of latent heat from spent steam. In mechanical vapour compression, positive displacement compressors are generally used to raise the pressure and temperature of the generated vapors. Since mechanical compressors do not require any motive steam, all vapors can be compressed to elevated pressure and temperature eliminating the need for subsequent recovery system. The energy supplied to the compressor constitutes the additional energy input to vapors. After compression of vapor and subsequent condensation of the same, hot condensate leaves the system.

Sea water contains dissolved salts having a concentration of about 35,000 ppm which is too high for use by human beings. This level must be reduced below 500 ppm before it can be used. Distillation is the oldest and the most commonly used method of desalination, where sea water is evaporated and vapours then condensed giving clean water. The latent heat of water is about 540 kcal/kg making the process highly energy intensive and conventional distillation columns prove uneconomical for production due to high input energy requirements. Various techniques are being used to recover the latent heat like multi effect evaporators, which can lower the energy requirement costs drastically. In LTTD method the energy requirement for the evaporation of water are taken from sea which makes the process eco-friendly and uses renewable source of energy. LTTD uses the temp difference which exists between the surface layer water (28˚-30˚C) & deep sea layer water (7˚-10˚C) existing in an ocean to produce potable water. The above technology can extensively be used in many chemicals plants for treatment of effluent. In fact a project on similar lines has already been conducted for concentration of Sodium Chloride solution in one of the large pesticide manufacturing units in India.

Engine run light weight Aluminum alloy blowers for Thermit Welding of Railway tracks.

Canned Motor Mechanical Vacuum Boosters developed to meet the stringent requirements of high vacuum industry and research organizations where leak tightness is of prime concern.