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2 Products availableEnergy audit and consultation services are crucial for individuals, businesses, and institutions seeking to optimize energy usage, reduce costs, and enhance overall sustainability. These services are typically offered by specialized companies and experts in the field. Our team of seasoned experts employs cutting-edge technologies and multiple software tools, such as EnergyPlus, Modelica, and many other Energy Simulation softwares, to conduct precise energy simulations. Through these simulations, we gain invaluable insights into your energy consumption patterns, enabling us to craft customized and forward-thinking solutions that are both sustainable and cost-effective.
Benefits of Energy Audit and Consultation Services:
Environmental Impact: Optimizing energy use contributes to sustainability goals by lowering carbon footprint and greenhouse gas emissions.
Enhanced Equipment Performance: Identifying and addressing issues with equipment and systems to ensure they operate at peak efficiency.
Regulatory Compliance: Meeting energy efficiency standards and environmental regulations.
Why Approach a Professional Company:
Expertise: Energy audit companies have specialized knowledge and experience in assessing energy consumption patterns across various sectors.
Certifications: Reputable companies often have certified energy auditors who hold recognized qualifications, such as Certified Energy Manager (CEM), ensuring high standards of service.
Customized Solutions: Professionals tailor recommendations based on specific facility needs, offering customized strategies for energy optimization.
Advanced Tools and Technology: Energy audit companies utilize sophisticated tools and technologies for data collection and analysis, providing accurate insights into energy usage.
Comprehensive Services: Beyond audits, many companies offer consultation services, assisting in the implementation of energy-efficient technologies and ongoing monitoring to ensure sustained improvements.
Regulatory Awareness: Keeping abreast of changing energy regulations, professionals help clients stay compliant with relevant standards and requirements.
Return on Investment (ROI): Expertise in calculating and demonstrating the potential return on investment for energy-efficient upgrades and implementations.
Why us?
Advanced Energy Simulations: Utilizing sophisticated software tools, we conduct in-depth energy simulations to analyze your current energy consumption, identify inefficiencies, and propose targeted improvements.
Customized Solutions: Our consultations result in personalized strategies tailored to your business's unique needs, ensuring sustainability and cost-effectiveness in every aspect of your energy management.
Innovative Technologies: We stay at the forefront of technological advancements, recommending and integrating innovative solutions that optimize energy efficiency and reduce environmental impact.
Approaching a professional energy audit and consultation company ensures access to specialized expertise, personalized solutions, and a strategic approach to achieving energy efficiency and sustainability goals. The investment in such services can result in significant long-term cost savings and environmental benefits, making it a valuable decision for individuals, businesses, and institutions.
We are dedicated to ensuring the long-term success and optimal performance of your solar energy systems through our comprehensive Operations and Maintenance (O&M) solutions. Our O&M services go beyond the installation phase, focusing on maximizing the lifespan and efficiency of your solar infrastructure.
Regular Inspections and Monitoring: We conduct routine inspections and employ advanced monitoring systems to detect and address any potential issues promptly, ensuring continuous, uninterrupted solar energy production.
Proactive Maintenance: Our proactive approach involves preventive maintenance measures that mitigate risks and extend the life of your solar installations. From cleaning panels to checking electrical components, we prioritize system reliability and performance.
Performance Optimization: Leveraging data analytics and industry best practices, we fine-tune your solar energy systems for optimal performance, maximizing energy output and return on investment.
We understand that each solar energy system is unique. Therefore, we offer custom O&M solutions tailored to your specific needs. Whether it's specialized maintenance requirements or routine cleaning services, our flexible approach ensures that your solar infrastructure operates at its peak efficiency throughout its lifespan. With us, you can trust in a holistic and personalized O&M strategy that enhances the sustainability and longevity of your solar investments.
Automotive batteries are essential components in various vehicles, each designed to meet specific power requirements and operational needs. In the automotive realm, batteries serve diverse applications:
In the case of cars, batteries play a pivotal role in supplying power for engine ignition and various electronic components. Typically lead-acid, these batteries vary in size to accommodate different car models. Some modern cars may use advanced technologies like Absorbent Glass Mat (AGM) or Enhanced Flooded Batteries (EFB) for enhanced performance.
Buses and trucks demand heavier-duty batteries due to larger engines and additional electrical loads. These heavy-duty batteries ensure reliable starting and power supply for the various systems in commercial vehicles.
Motorcycle batteries, smaller and lighter, must still deliver sufficient power for engine starting and running lights and accessories. Typically lead-acid, some motorcycles may employ lithium-ion batteries for a more compact and lighter design.
Electric rickshaws (E-Rickshaws) are part of the growing trend towards electric transportation. Powered by electric batteries, these vehicles commonly use lead-acid or lithium-ion batteries, providing a clean and efficient mode of urban commuting.
Key Considerations for Automotive Batteries:
Voltage and Capacity: Different vehicles require batteries with specific voltage and capacity ratings to meet their power needs.
Maintenance: While traditional lead-acid batteries may require periodic maintenance, newer technologies like AGM and lithium-ion offer maintenance-free options.
Durability: Automotive batteries need to withstand vibrations, temperature fluctuations, and other harsh conditions associated with vehicle operation.
Technology: Advancements in battery technology, such as AGM and lithium-ion, provide improved performance, longer life, and faster charging capabilities.
Environmental Impact: With increasing awareness of environmental concerns, there is a growing interest in electric vehicles powered by batteries with reduced environmental impact.
Choosing the right automotive battery involves considering the vehicle type, power requirements, and specific environmental conditions to ensure reliable and efficient performance.
BATTERY SAFETY AND HANDLING GUIDELINES
FOLLOW THESE BEST PRACTICES TO AVOID BATTERY ACCIDENTS
Please refer to your vehicle and battery owners’ manual to safely handle your lead-acid battery. Lead-acid batteries contain hydrogen-oxygen gases that can be explosive. Also, leakage of sulfuric acid can cause severe burns. Here are some precautions:
Safe disposal of old batteries
Govt. of India has notified Batteries Management Handling Rules, 2001 under the Environment Protection (Amendment) Act 1986 to channelize used lead acid batteries to registered/ authorized recyclers and ensure an environmentally safe & sound recycling.
The used batteries are carefully transported to respective manufacturers for the safe lead-recycle process, with no danger of air/water pollution. We are strongly committed to a safe and pollution-free environment.
Automotive batteries are essential components in various vehicles, each designed to meet specific power requirements and operational needs. In the automotive realm, batteries serve diverse applications:
In the case of cars, batteries play a pivotal role in supplying power for engine ignition and various electronic components. Typically lead-acid, these batteries vary in size to accommodate different car models. Some modern cars may use advanced technologies like Absorbent Glass Mat (AGM) or Enhanced Flooded Batteries (EFB) for enhanced performance.
Buses and trucks demand heavier-duty batteries due to larger engines and additional electrical loads. These heavy-duty batteries ensure reliable starting and power supply for the various systems in commercial vehicles.
Motorcycle batteries, smaller and lighter, must still deliver sufficient power for engine starting and running lights and accessories. Typically lead-acid, some motorcycles may employ lithium-ion batteries for a more compact and lighter design.
Electric rickshaws (E-Rickshaws) are part of the growing trend towards electric transportation. Powered by electric batteries, these vehicles commonly use lead-acid or lithium-ion batteries, providing a clean and efficient mode of urban commuting.
Key Considerations for Automotive Batteries:
Voltage and Capacity: Different vehicles require batteries with specific voltage and capacity ratings to meet their power needs.
Maintenance: While traditional lead-acid batteries may require periodic maintenance, newer technologies like AGM and lithium-ion offer maintenance-free options.
Durability: Automotive batteries need to withstand vibrations, temperature fluctuations, and other harsh conditions associated with vehicle operation.
Technology: Advancements in battery technology, such as AGM and lithium-ion, provide improved performance, longer life, and faster charging capabilities.
Environmental Impact: With increasing awareness of environmental concerns, there is a growing interest in electric vehicles powered by batteries with reduced environmental impact.
Choosing the right automotive battery involves considering the vehicle type, power requirements, and specific environmental conditions to ensure reliable and efficient performance.
BATTERY SAFETY AND HANDLING GUIDELINES
FOLLOW THESE BEST PRACTICES TO AVOID BATTERY ACCIDENTS
Please refer to your vehicle and battery owners’ manual to safely handle your lead-acid battery. Lead-acid batteries contain hydrogen-oxygen gases that can be explosive. Also, leakage of sulfuric acid can cause severe burns. Here are some precautions:
Safe disposal of old batteries
Govt. of India has notified Batteries Management Handling Rules, 2001 under the Environment Protection (Amendment) Act 1986 to channelize used lead acid batteries to registered/ authorized recyclers and ensure an environmentally safe & sound recycling.
The used batteries are carefully transported to respective manufacturers for the safe lead-recycle process, with no danger of air/water pollution. We are strongly committed to a safe and pollution-free environment.
Automotive batteries are essential components in various vehicles, each designed to meet specific power requirements and operational needs. In the automotive realm, batteries serve diverse applications:
In the case of cars, batteries play a pivotal role in supplying power for engine ignition and various electronic components. Typically lead-acid, these batteries vary in size to accommodate different car models. Some modern cars may use advanced technologies like Absorbent Glass Mat (AGM) or Enhanced Flooded Batteries (EFB) for enhanced performance.
Buses and trucks demand heavier-duty batteries due to larger engines and additional electrical loads. These heavy-duty batteries ensure reliable starting and power supply for the various systems in commercial vehicles.
Motorcycle batteries, smaller and lighter, must still deliver sufficient power for engine starting and running lights and accessories. Typically lead-acid, some motorcycles may employ lithium-ion batteries for a more compact and lighter design.
Electric rickshaws (E-Rickshaws) are part of the growing trend towards electric transportation. Powered by electric batteries, these vehicles commonly use lead-acid or lithium-ion batteries, providing a clean and efficient mode of urban commuting.
Key Considerations for Automotive Batteries:
Voltage and Capacity: Different vehicles require batteries with specific voltage and capacity ratings to meet their power needs.
Maintenance: While traditional lead-acid batteries may require periodic maintenance, newer technologies like AGM and lithium-ion offer maintenance-free options.
Durability: Automotive batteries need to withstand vibrations, temperature fluctuations, and other harsh conditions associated with vehicle operation.
Technology: Advancements in battery technology, such as AGM and lithium-ion, provide improved performance, longer life, and faster charging capabilities.
Environmental Impact: With increasing awareness of environmental concerns, there is a growing interest in electric vehicles powered by batteries with reduced environmental impact.
Choosing the right automotive battery involves considering the vehicle type, power requirements, and specific environmental conditions to ensure reliable and efficient performance.
BATTERY SAFETY AND HANDLING GUIDELINES
FOLLOW THESE BEST PRACTICES TO AVOID BATTERY ACCIDENTS
Please refer to your vehicle and battery owners’ manual to safely handle your lead-acid battery. Lead-acid batteries contain hydrogen-oxygen gases that can be explosive. Also, leakage of sulfuric acid can cause severe burns. Here are some precautions:
Safe disposal of old batteries
Govt. of India has notified Batteries Management Handling Rules, 2001 under the Environment Protection (Amendment) Act 1986 to channelize used lead acid batteries to registered/ authorized recyclers and ensure an environmentally safe & sound recycling.
The used batteries are carefully transported to respective manufacturers for the safe lead-recycle process, with no danger of air/water pollution. We are strongly committed to a safe and pollution-free environment.
For any enquiry, please contact
E-mail: info.babaenterprisesindia@gmail.com
Mobile 91-9461156294 (Call, SMS & Whatsapp)
Square wave inverters, also known as modified sine wave inverters, convert DC electricity to AC with a stepped waveform. They are cost-effective but less efficient than pure sine wave inverters. Suitable for basic applications like powering appliances in RVs and remote setups, they may not be compatible with sensitive electronics. Despite their limitations, square wave inverters serve as affordable emergency backup power sources, offering a budget-friendly solution for specific power needs.
Applications of Square Wave Inverters:
Remote Power Systems: Square wave inverters are often used in off-grid solar power systems or other remote power setups where cost is a significant consideration.
RVs and Boats: In recreational vehicles (RVs) and boats, square wave inverters are used to power basic appliances and equipment, providing a more affordable option for mobile power needs.
Emergency Backup Power: Square wave inverters can serve as emergency backup power sources for essential devices during power outages, offering a cost-effective solution for short-term backup needs.
Limitations of Square Wave Inverters:
Compatibility Issues: Some sensitive electronic devices, including certain types of motors, audio equipment, and medical equipment, may not function properly or may even be damaged when powered by a square wave inverter.
Reduced Efficiency: Square wave inverters are generally less efficient than pure sine wave inverters, leading to potential energy losses during the conversion process.
Limited Applications: Due to their waveform characteristics, square wave inverters are not suitable for all types of electronic equipment, especially those that require a clean and precise sine wave for optimal performance.
On Grid Rooftop Solar Power System of 3 kW capacity
Solar Panel Cleaning Kit includes Nylon Brush, Telescopi Pole, Water Pipe & Connectors
Solar Batteries
Solar batteries, also known as solar energy storage systems or solar storage batteries, play a vital role in harnessing and maximizing the benefits of solar power. These batteries are crucial components of solar photovoltaic (PV) systems, which generate electricity from sunlight. These batteries store excess
electricity generated by solar panels during periods of sunlight, allowing users to utilize that stored energy when sunlight is not available, such as during nighttime or cloudy days. This capability enables a more consistent and reliable power supply from solar installations.
In contrast to automotive and industrial batteries, solar batteries serve a distinct purpose in energy storage. While automotive batteries are designed for short bursts of high power to start engines, and industrial batteries focus on providing consistent power for various heavy-duty applications, solar batteries prioritize efficient storage and retrieval of energy generated by solar panels. They are tailored for cyclic use, experiencing daily charge and discharge cycles. Solar batteries emphasize long-term reliability and sustainability, characteristics that differentiate them from the specific and often more demanding requirements of automotive and industrial batteries.
Types of Solar Batteries:
Lead-Acid Batteries: Traditional and cost-effective, lead-acid batteries are commonly used for solar energy storage. However, they may have shorter lifespans and require regular maintenance.
Lithium-Ion Batteries: Growing in popularity due to their high energy density, longer lifespan, and lower maintenance requirements. Lithium-ion batteries, including variations like lithium iron phosphate (LiFePO4), are commonly used in residential and commercial solar storage systems.
Flow Batteries: An emerging technology, flow batteries store energy in liquid electrolytes, offering advantages like scalability and longer cycle life. However, they are currently less common and more expensive.
Key Considerations:
Capacity: The storage capacity of a solar battery determines how much energy it can store. The right capacity depends on the user's energy needs and the intended duration of backup power.
Depth of Discharge (DoD): This indicates the percentage of a battery's capacity that can be used before recharging. A higher DoD allows for more usable energy but can impact the battery's lifespan.
Round-Trip Efficiency: This metric reflects how efficiently a solar battery can convert stored energy back into electricity. Higher efficiency ensures less energy loss during the charging and discharging processes.
Lifecycle: The number of charge and discharge cycles a solar battery can undergo before its capacity significantly degrades. Lithium-ion batteries often have longer lifecycles compared to lead-acid batteries.
Applications:
Residential Solar Systems: Solar batteries are used in conjunction with residential solar panels to store excess energy for nighttime or cloudy days, providing homeowners with a reliable and continuous power supply.
Commercial and Industrial Solar Installations: Large-scale solar installations for businesses and industries often incorporate solar batteries to enhance energy self-sufficiency and reduce reliance on the grid during peak demand periods.
Remote Off-Grid Systems: Solar batteries are essential in off-grid applications where there is no access to the electrical grid. This includes remote homes, cabins, and telecommunications towers.
BATTERY SAFETY AND HANDLING GUIDELINES
FOLLOW THESE BEST PRACTICES TO AVOID BATTERY ACCIDENTS
Please refer to your vehicle and battery owners’ manual to safely handle your lead-acid battery. Lead-acid batteries contain hydrogen-oxygen gases that can be explosive. Also, leakage of sulfuric acid can cause severe burns. Here are some precautions:
Wear safety glasses or goggles and a face shield
Make sure the work area is well-ventilated
Keep the battery out of children’s reach
Keep vent caps tight and level
In the event of an accident, flush with water and call a physician immediately
Never lean over the battery while boosting, testing or charging it
Keep all ignition sources like cigarettes, flames, and sparks that could cause the battery to explode away from it
Do not charge, use booster cables or adjust post connections without proper instructions and training
Avoid metallic contact across the terminals as this can result in short circuit and sparking (remove comma)
Safe disposal of old batteries
Govt. of India has notified Batteries Management Handling Rules, 2001 under the Environment Protection (Amendment) Act 1986 to channelize used lead acid batteries to registered/ authorized recyclers and ensure an environmentally safe & sound recycling.
The used batteries are carefully transported to respective manufacturers for the safe lead-recycle process, with no danger of air/water pollution. We are strongly committed to a safe and pollution-free environment.
Eco Volt Neo series with pure sine wave technology is a best seller from the house of Luminous. It is equipped with advanced microprocessor based design, LVFC (Low voltage fast battery charging) technology , user friendly LED indications, battery selection switch for longer battery life and improved performance and many other protection features and alarms.
Like water and air, the Sun is one of the Earth’s life support systems, providing
heat and light. Solar energy, which is renewable, widely available and clean, provides enough energy to meet the world’s annual consumption needs every 50 minutes. The challenge is to collect a share – however small – of this heat and radiant energy.
Two major technologies have been developed to harness it:
Photovoltaic solar technology, which directly converts sunlight into electricity using panels made of semiconductor cells.
Photovoltaic solar technology, which directly converts sunlight into using panels made of semiconductor cells. A photovoltaic panel is made up of several cells producing direct current (DC), which is then converted into alternating current (AC)by an inverter.
Solar thermal technology, which captures the sun’s heat. This heat is used directly or converted into mechanical energy and in turn electricity, known as concentrated solar power This heat is used directly (lowtemperature solar thermal) or converted into mechanical energy and in turn electricity (concentrated solar power – CSP).
The amount of sunlight that strikes the earth's surface in an hour and a half is enough to handle the entire world's energy consumption for a full year. Solar technologies convert sunlight into electrical energy either through photovoltaic (PV) panels or through mirrors that concentrate solar radiation. This energy can be used to generate electricity or be stored in batteries or thermal storage.
Solar Power Plant EPC (Engineering, Procurement & Construction)
It is time when everyone is talking about global warming and detrimental effects fossil fuel has on the environment. In today’s demanding power situation relying on a renewable source of energy is a wise decision. Solar power contains carbon footprint with zero emission of greenhouse gases. This environment-friendly option makes it desirable for all residential, commercial and industrial energy operations.
The rise in conventional electricity prices are forcing us all to look for alternative energy source, and solar power is turning out to be a viable option. Solar energy saves on mounting electricity bills by promising delivery of safe energy to homes, offices, institutions, hospitals, hotels and industries.
Capacity 45 Ah with 66 Months* Warranty (AAM-PR-0055B24LS)
Automotive batteries are essential components in various vehicles, each designed to meet specific power requirements and operational needs. In the automotive realm, batteries serve diverse applications:
In the case of cars, batteries play a pivotal role in supplying power for engine ignition and various electronic components. Typically lead-acid, these batteries vary in size to accommodate different car models. Some modern cars may use advanced technologies like Absorbent Glass Mat (AGM) or Enhanced Flooded Batteries (EFB) for enhanced performance.
Buses and trucks demand heavier-duty batteries due to larger engines and additional electrical loads. These heavy-duty batteries ensure reliable starting and power supply for the various systems in commercial vehicles.
Motorcycle batteries, smaller and lighter, must still deliver sufficient power for engine starting and running lights and accessories. Typically lead-acid, some motorcycles may employ lithium-ion batteries for a more compact and lighter design.
Electric rickshaws (E-Rickshaws) are part of the growing trend towards electric transportation. Powered by electric batteries, these vehicles commonly use lead-acid or lithium-ion batteries, providing a clean and efficient mode of urban commuting.
Key Considerations for Automotive Batteries:
Voltage and Capacity: Different vehicles require batteries with specific voltage and capacity ratings to meet their power needs.
Maintenance: While traditional lead-acid batteries may require periodic maintenance, newer technologies like AGM and lithium-ion offer maintenance-free options.
Durability: Automotive batteries need to withstand vibrations, temperature fluctuations, and other harsh conditions associated with vehicle operation.
Technology: Advancements in battery technology, such as AGM and lithium-ion, provide improved performance, longer life, and faster charging capabilities.
Environmental Impact: With increasing awareness of environmental concerns, there is a growing interest in electric vehicles powered by batteries with reduced environmental impact.
Choosing the right automotive battery involves considering the vehicle type, power requirements, and specific environmental conditions to ensure reliable and efficient performance.
FOLLOW THESE BEST PRACTICES TO AVOID BATTERY ACCIDENTS
Please refer to your vehicle and battery owners’ manual to safely handle your lead-acid battery. Lead-acid batteries contain hydrogen-oxygen gases that can be explosive. Also, leakage of sulfuric acid can cause severe burns. Here are some precautions:
Safe disposal of old batteries
Govt. of India has notified Batteries Management Handling Rules, 2001 under the Environment Protection (Amendment) Act 1986 to channelize used lead acid batteries to registered/ authorized recyclers and ensure an environmentally safe & sound recycling.
The used batteries are carefully transported to respective manufacturers for the safe lead-recycle process, with no danger of air/water pollution. We are strongly committed to a safe and pollution-free environment.
Amaron FLO Car BatteryAAM-FL-00036B20Lwith 30+25 Months Warranty
Additional Information:
Packaging Details : Size 508(L)x222(W)x257(H)
Sine wave inverters converts DC electricity into a smooth AC waveform similar to utility grid power. Their high-quality output is ideal for sensitive electronics, including medical equipment and precision machinery, minimizing the risk of interference. Sine wave inverters find applications in residential solar systems, medical facilities, industrial settings, and telecommunications, providing reliable and clean power. Their compatibility with a wide range of electronic devices makes them a versatile and essential component in various applications.
Applications of Sine Wave Inverters:
Residential Power Systems: Sine wave inverters are commonly used in residential solar power systems to convert DC power generated by solar panels into high-quality AC power for household appliances and electronics.
Medical Equipment: Sine wave inverters are essential for powering medical devices and equipment, ensuring a stable and clean power supply for sensitive medical applications.
Audio and Video Equipment: Home entertainment systems, audio amplifiers, and video equipment benefit from the smooth and interference-free power provided by sine wave inverters.
Industrial Applications: Sine wave inverters are used in various industrial settings to power equipment, machinery, and automation systems that require a reliable and high-quality AC power source.
Telecommunications: Sine wave inverters play a crucial role in powering telecommunication equipment, ensuring a stable and interference-free power supply for reliable communication networks.
Advantages of Sine Wave Inverters:
Clean Power Output: The smooth sinusoidal waveform produced by sine wave inverters results in a clean and stable power output, reducing the risk of equipment damage or malfunction.
Wide Compatibility: Sine wave inverters are compatible with a broad range of electronic devices, making them suitable for various applications in residential, commercial, and industrial settings.
Reduced Electromagnetic Interference: The high-quality waveform minimizes electromagnetic interference, making sine wave inverters suitable for applications where signal clarity and precision are critical.
On-grid solar power system is connected to the public electricity grid. Power is supplied from the solar modules through inverter or from the public grid (through net meter) and there is no need for battery backup.
There are two main types of solar charge controllers: Maximum Power Point Tracking (MPPT) and Pulse Width Modulation (PWM). The two perform similar functions, but MPPT is typically the better choice for residential solar systems.
Automotive batteries are essential components in various vehicles, each designed to meet specific power requirements and operational needs. In the automotive realm, batteries serve diverse applications:
In the case of cars, batteries play a pivotal role in supplying power for engine ignition and various electronic components. Typically lead-acid, these batteries vary in size to accommodate different car models. Some modern cars may use advanced technologies like Absorbent Glass Mat (AGM) or Enhanced Flooded Batteries (EFB) for enhanced performance.
Buses and trucks demand heavier-duty batteries due to larger engines and additional electrical loads. These heavy-duty batteries ensure reliable starting and power supply for the various systems in commercial vehicles.
Motorcycle batteries, smaller and lighter, must still deliver sufficient power for engine starting and running lights and accessories. Typically lead-acid, some motorcycles may employ lithium-ion batteries for a more compact and lighter design.
Electric rickshaws (E-Rickshaws) are part of the growing trend towards electric transportation. Powered by electric batteries, these vehicles commonly use lead-acid or lithium-ion batteries, providing a clean and efficient mode of urban commuting.
Key Considerations for Automotive Batteries:
Voltage and Capacity: Different vehicles require batteries with specific voltage and capacity ratings to meet their power needs.
Maintenance: While traditional lead-acid batteries may require periodic maintenance, newer technologies like AGM and lithium-ion offer maintenance-free options.
Durability: Automotive batteries need to withstand vibrations, temperature fluctuations, and other harsh conditions associated with vehicle operation.
Technology: Advancements in battery technology, such as AGM and lithium-ion, provide improved performance, longer life, and faster charging capabilities.
Environmental Impact: With increasing awareness of environmental concerns, there is a growing interest in electric vehicles powered by batteries with reduced environmental impact.
Choosing the right automotive battery involves considering the vehicle type, power requirements, and specific environmental conditions to ensure reliable and efficient performance.
BATTERY SAFETY AND HANDLING GUIDELINES
FOLLOW THESE BEST PRACTICES TO AVOID BATTERY ACCIDENTS
Please refer to your vehicle and battery owners’ manual to safely handle your lead-acid battery. Lead-acid batteries contain hydrogen-oxygen gases that can be explosive. Also, leakage of sulfuric acid can cause severe burns. Here are some precautions:
Safe disposal of old batteries
Govt. of India has notified Batteries Management Handling Rules, 2001 under the Environment Protection (Amendment) Act 1986 to channelize used lead acid batteries to registered/ authorized recyclers and ensure an environmentally safe & sound recycling.
The used batteries are carefully transported to respective manufacturers for the safe lead-recycle process, with no danger of air/water pollution. We are strongly committed to a safe and pollution-free environment.
Batteries of all bike brands & models