Electric High Speed Car With Lithium Iron Phosphate Battery

Electric High Speed Car With Lithium Iron Phosphate Battery

Our Electric High Speed Car With Lithium Iron Phosphate Battery can be used for Electric High Speed Car, we accept any customization as per factory request.

The features of Electric High Speed Car With Lithium Iron Phosphate Battery

Energy storage mainly refers to the storage of electrical energy. Lead-acid batteries are generally used for battery storage in high-power applications, which are mainly used for emergency power supplies, battery cars, and storage of surplus energy in power plants. In addition, rechargeable dry batteries can be used in low-power environments: such as nickel-metal hydride batteries, lithium batteries, etc. The editor of New Energy will introduce the pros and cons of nine types of energy storage batteries.

1. Lead-acid battery

Advantage:
     The raw materials are easily available and the price is relatively low;
     Good high-rate discharge performance;
     Good temperature performance, can work normally in the environment of -40~+60℃;
     Suitable for floating charge, long service life, no memory effect;

     Used batteries are easy to recycle, which is conducive to environmental protection.

Disadvantages:
     The specific energy is low, generally 30~40 Wh/kg;
     The service life is not as long as the Cd/Ni battery;

     The production process is easy to pollute the environment and must be equipped with three waste treatment equipment.

2. Ni-MH battery

Advantage:
     The energy density has been greatly improved, the weight energy density is 65 Wh/kg, and the volume energy density is 200 Wh/L;
     High power density, large charge and discharge current;
     Cycle life (extended to 1000 times);
     Environmentally friendly

     Lithium-ion battery technology is relatively mature.

Disadvantages:
     The normal working temperature range is between 15~40℃, and the high temperature performance is poor;
     The working voltage is low, the working voltage range is 1.0~1.4 V;

     The price is more expensive than lead-acid batteries and nickel-hydrogen batteries, but the performance is not as good as lithium batteries.

3. Lithium-ion battery

Advantage:
     Higher than general energy;
     High voltage platform;
     Good cycle performance;
     No memory effect

     Environmental protection, no pollution; currently one of the power batteries for electric vehicles.

4. Super battery

Advantage:
     High power density;

     Short charging time;

Disadvantages:

     The energy density is low, only 1-10 Wh/kg, and the super-capacity cruising range is too short.

5. Single fuel cell

Advantage:
     The specific energy is high, and the car mileage is long;
     High power density, large charge and discharge current;

     Environmentally friendly and pollution-free.

Disadvantages:
     The system is complex and the technology maturity is not high;
     The construction of the hydrogen supply system is lagging behind;

     There are high requirements for sulfur dioxide in the air, and fuel cell vehicles have a short service life.

6. Sodium-sulfur battery

Advantage:
     High energy (theoretical 760 wh/kg, actual 390 wh/kg);
     High power (discharge current density can reach 200~300 mA/cm2);
     Fast charging (full charge for 30 min);
     Long service life (15 years; or 2500~4500 years old);
     No pollution, recyclable (Na, S almost 100% recyclable);

     No self-discharge phenomenon, high energy conversion rate;

Disadvantages:
     The working temperature is high, the working temperature is 300~350 degrees, and the starting is slow;
     The price is very expensive, 10,000 yuan per unit;

     Not safe.

7. Flow battery (Vec)

Advantage:
     Safe, deep-dischargeable power supply;
     Large volume, unlimited tank size;
     Has a higher charge and discharge rate;
     Long service life and high reliability;
     No emissions, low noise;
     Fast charging and discharging switching speed, only 0.02 seconds;

     Site selection is not restricted by region.

Disadvantages:
     Cross contamination of positive and negative electrolytes;
     Some need to use expensive ion exchange membranes;
     The double solution is larger and the specific energy is lower;

     The energy conversion efficiency is low.

8. Lithium-air battery pack

Disadvantages:

     Lithium oxide (Li2O) generated by the solid-state reaction will accumulate on the positive electrode, blocking the contact between the electrolyte and the air, and thus stop the discharge. Researchers believe that lithium-air batteries have 10 times better performance than lithium-ion batteries and can provide the same energy as gasoline. The lithium gas battery absorbs oxygen from the air for charging, so it can become smaller and lighter.

9. Lithium-sulfur battery

Advantage:
     High energy density, the theoretical energy density can reach 2600 Wh/kg;
     Low cost of raw materials;
     Low energy consumption;
     Low toxicity.

Our Electric High Speed Car With Lithium Iron Phosphate Battery can be used for Electric High Speed Car, and the performance of Electric High Speed Car With Lithium Iron Phosphate Battery is also very high.