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Send InquiryElectrical Multiple Evaporation
Price 2200000.0 INR/ Unit
MOQ : 1 Unit
Electrical Multiple Evaporation Specification
- Model No
- KPL-103
- Automation Grade
- YES
- Source
- YES
- Speed
- NO RPM
- Temperature Range
- 60-65 Rankine
- Plastic Processed
- NO
- Driven Type
- VFD
- Production Capacity
- 1 Ton
- Usage & Applications
- Y
- Country Of Origin
- India
- Frequency
- 50 Hertz (HZ)
- Motor Power
- 7 Horsepower (HP)
- Efficiency (%)
- 85
- Installation Guideline
- YES
- Accessories
- NO
- Type
- Electrical Multiple Evaporation
- Material
- Stainless Steel
- Computerized
- Yes
- Automatic Grade
- Automatic
- Control System
- PLC Control
- Drive Type
- Electric
- Voltage
- 415 Volt (v)
- Power
- 41 Ohm (ohm)
- Weight (kg)
- 1 Tonne
- Dimension (L*W*H)
- 4/3/5 Meter (m)
- Color
- Silver
- Warranty
- 1 year
- Capacity
- 3000 m3/hr
- Features
- Vacuum Operation, Electric Heating, Efficient Vapor Condensation, Environmental Benefits.
- Machine Type
- Multiple Evaporation
- Power Consumption
- 42 Horsepower (HP)
- Surface Finish
- Polished, Coated
Electrical Multiple Evaporation Trade Information
- Minimum Order Quantity
- 1 Unit
- FOB Port
- NO
- Payment Terms
- Paypal, Cash Advance (CA), Cash in Advance (CID), Telegraphic Transfer (T/T)
- Supply Ability
- 1 Unit Per Month
- Delivery Time
- 1 Week
- Sample Available
- No
- Sample Policy
- Free samples available with shipping and taxes paid by the buyer
- Packaging Details
- 4L/3W/5H
- Main Export Market(s)
- Asia, Australia, Central America, North America, South America, Eastern Europe, Western Europe, Middle East, Africa
- Main Domestic Market
- All India
- Certifications
- MSME, IEC,GST
About Electrical Multiple Evaporation
Electrical Multiple Evaporation (EME)
Innovative Zero Liquid Discharge Solution for Wastewater Treatment
EME (Electrical Multiple Evaporation) is a state-of-the-art plant designed to achieve Zero Liquid Discharge (ZLD) in wastewater treatment without the reliance on traditional boiler systems. This cutting-edge technology efficiently processes high Total Dissolved Solids (TDS) feeds through a streamlined evaporation process, ensuring minimal environmental impact and optimal resource recovery.
The process begins with high TDS wastewater being pumped into advanced shell and tube type evaporators, where it undergoes treatment to vaporize the effluent. This innovative design allows for effective separation of water from dissolved solids, enabling a significant reduction in liquid waste.
Key features of EME include:
- Vacuum Operation: Operating under vacuum conditions maximizes evaporation efficiency at lower heating temperatures, enhancing the overall performance of the system and reducing energy consumption.
- Electric Heating: The first effect of the system utilizes electric heating, which provides a cost-effective alternative to conventional heating methods. This not only minimizes operational costs per liter treated but also supports a more sustainable energy profile.
- Efficient Vapor Condensation: Once the vapor is generated, it is efficiently condensed using cooling water in a condenser, allowing for the recovery of clean water while leaving behind solid residues for further processing or disposal.
- Environmental Benefits: By eliminating the need for boiler systems and minimizing liquid waste, EME contributes significantly to environmental protection, promoting sustainable practices in industrial wastewater management,.
Cost-Effective Solution:
The integration of advanced technologies in EME leads to lower operational costs and enhanced process efficiency, making it an attractive solution for industries seeking to meet stringent environmental regulations.
In summary, EME represents a pioneering approach to wastewater treatment, seamlessly achieving Zero Liquid Discharge without the complications associated with boiler systems. By harnessing innovative evaporation technologies and electric heating, EME not only optimizes operational efficiency but also supports industries in their commitment to sustainability and resource conservation.
Why RAME Outperforms Conventional High-Energy Evaporators.
|
Feature |
High Electrical Consumption Evaporator |
RAME Solution (Recommended) |
|
Grid Dependency |
Heavily dependent on stable, high-capacity electrical supply. Performance significantly drops during voltage fluctuations and grid instability. |
Designed to operate efficiently with lower electrical load, offering superior tolerance to grid variations and unstable power conditions. |
|
Reliability s Maintenance |
High electrical stress leads to overheating, frequent component failures, and increased maintenance downtime. |
Enhanced reliability due to fewer electrical stress points, resulting in reduced maintenance frequency and longer equipment life. |
|
Operational Expenditure (OPEX) |
High OPEX driven by excessive power consumption, rising electricity tariffs, and accelerated electrical component wear. |
Substantially lower OPEX through energy-efficient process design and minimized electrical dependency. |
|
Environmental Impact |
Higher indirect carbon footprint due to heavy reliance on grid electricity and inefficient energy utilization. |
Provides a direct pathway to Zero Liquid Discharge (ZLD) with minimal emissions, supporting sustainability and ESG goals. |
|
Return on Investment (ROI) |
Longer payback period due to high operating costs and frequent maintenance expenses. |
Faster ROI achieved through significant energy savings, lower maintenance costs, and stable long- term performance. |
|
Payback Period |
Typically extended payback due to high power bills and operational inefficiencies. |
Shorter payback period, making the solution financially attractive for industrial and long-term operations. |
|
perational Stability |
Performance highly sensitive to electrical supply quality and load variations. |
Stable and consistent performance even under fluctuating grid conditions. |
|
Lifecycle Cost |
High total lifecycle cost due to energy consumption, spares replacement, and downtime losses. |
Optimized lifecycle cost with reduced energy usage, fewer breakdowns, and extended system longevity. |
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