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The introduction of an electric car (EV) is one of the initiatives of the automotive industry to eliminate carbon dioxide emissions. Carbon credits can be a favorable incentive for manufacturers of cars for production (EV). The market for these loans has become much larger than the EV market.
The introduction of electric vehicles in the last decade has laid the foundation for addressing carbon emissions.
C+Charge wants to combine the concept of carbon credits with the electric car charging industry (EV) and take advantage of the power of blockchain technology to realize this idea.
The idea is to create a secure peer-to-peer (P2P) payment system for EV charging stations based on blockchain technology. Customers will be provided with personal packets of electronic currencies that they can use to pay for charging at charging stations around the world.
The aim of the project is to reward EV owners with carbon credits that they earn for charging their cars. The aim of the project is to create a payment system for charging electric vehicles, which will offer customers excellent benefits, privacy and trust.
C+Charge
Here are some key points that explain the C+Charge functionality.
C+Charge is the first platform in the EV charge ecosystem that uses carbon credits to reward EV owners when charging.
After each charge, users can use their native currency C+Charge, $CCHG, to make payments and obtain carbon credits to offset their carbon footprint.
The platform has also developed an application for its users to track real-time prices, charging station waiting times and more.
The C+Charge application has a geolocation function that allows users to find the nearest charging station.
$CCHG tokens are removed from the ecosystem every time they are used for payment. This feature deflates them and helps maintain their market demand.
A $CCHG token is a limited-offer token built on a Smartchain cryptocurrency. Traders have a good opportunity to participate in pre-sales of cryptocurrency while the token price remains low.
By creating a holistic peer-to-peer (P2P) payment system, C+Charge will allow its users to use CCHG tokens to pay for tokens, and electric vehicle drivers can earn and use carbon credits to reduce the overall carbon footprint.
Cryptocurrency enthusiasts who want to buy $CCHG can do so at the pre-sale stage of the project.
How to Buy $CCHG?
Buyers can take the following simple steps to purchase tokens while they still have the option.
Step 1: Customize your wallet
You must first download and install a crypto wallet, such as MetaMask or TrustWallet. Buyers can visit the MetaMask website and follow the instructions for downloading and installing the wallet.
Step 2: Connect wallet
After installing the wallet, buyers should go to the pre-sale page of the crypto project C+Charge. Now they should find the "Connect wallet" button and click on it.
After that, buyers can continue to choose the established wallet (for example, MetaMask or TrustWallet).
Step 3: Buy $CCHG with BNB/USDT
Buyers must add BNB or USDT to their wallets to purchase $CCHG. To purchase tokens, users can either purchase them directly with BNB or USDT or purchase BNB with a credit card first.
Step 4: Buying $CCHG Tokens
Once traders have replenished their wallets with enough BNB or USDT, they can click "Buy for BNB" or "Buy for USDT".
Soon after, buyers must enter the number of BNB/USDT they are willing to sell in exchange for C+Charge tokens.
Step 5: Confirm transaction and receive tokens
In the last step, the wallet provider will request authorization from the user. By double-checking the amount of $CCHG tokens received, the buyer can continue and confirm the transaction. Once the pre-sale is complete, the $CCHG tokens can be withdrawn.
What is C+Charge?
Now that we have an overview of the steps involved in buying $CCHG tokens, let’s look at the unique features of the program and why traders should consider buying $CCHG tokens.
Industrialization and global commercialization have led to the extraction of natural resources due to increased demand for electricity and fuel. The use of fossil fuels for growth has led to exponential increases in carbon dioxide emissions, which have proven harmful to the environment. Aware of the need to adjust, most of the world’s countries came together in the 1990s to develop an agreement to encourage a reversal of carbon emissions growth. A carbon credit concept and agreement was developed, which provided a monetary incentive for large companies to produce products that reduce or eliminate carbon emissions.
The introduction of electric vehicles (EV) is one such initiative taken by the automotive industry to eliminate carbon emissions. Carbon credits have become an incentive for automobile manufacturers to produce electric vehicles. The carbon market itself is becoming a larger industry than the market for electric vehicles. The charging infrastructure required for smooth EV development has become a capital-intensive activity, limiting profits to a few large companies. Even with a high incentive to invest in these technologies, the existing charging infrastructure is still insufficient to support the amount of EV that is currently on the road, or to cope with the projected increase in EV, produced in the coming years.
With the exception of a few solar charging stations, most charging stations are connected to the grid, which raises the following questions.
Transparent and consistent pricing
Unlike petrol stations, where the general public is well aware of gasoline prices, public charging stations have no fixed rate (e.g., fiat or per kg).
