能量租赁

Mefree is the lending platform on TRON where users can borrow, lend, deposit assets and earn interests.

How to Choose the Duration of Tron Energy Leasing? Why Renting for 1 Day Is the Most Cost-effective and Money-saving Option?

2023-04-20 MeFree.net

Many people have gradually realized that leasing Tron energy before transferring USDT can effectively reduce USDT transfer fees. But when it comes to various leasing durations, how should one choose? There are 1-hour leases, 1-day leases, 2 days, 3 days, one week, half a month, one month, and even so-called unlimited durations. If you want to save on fees, please read on.

First, let’s talk about 1 hour. The price for 1 hour is low. For example, on the mefree.net energy leasing platform, renting 32,000 energy for 1 hour costs only 3 TRX. This is suitable for those who seek affordability and can predict their USDT transaction volume within 1 hour. For example, Mr. Wang expects to make 10 USDT transfers in the next hour, so he can transfer 30 TRX to mefree.net and get 320,000 energy. The advantage of a 1-hour leasing duration is low cost and flexibility. The drawback is that it’s a short time and not suitable for renting too much at once. You can only rent based on actual needs, which may be inconvenient for users.

Now, let’s talk about the 1-day energy duration. I can tell you that a 1-day leasing duration is the most cost-effective. Buckle up, we’re going full speed, and if necessary, you can grab a pen and paper to calculate. On the mefree.net energy leasing platform, the price for a 1-day leasing duration is 5 TRX. One day means it starts counting from the distribution of energy, and the effective duration of energy is 24 hours. Why is a 1-day duration cost-effective? This has to do with the Tron mechanism. If observant Tron users often notice energy changes, they will notice that the energy value increases every second after the energy is depleted. This is because the Tron mechanism states that energy will be fully restored within 24 hours after it’s used up. Haven’t grasped it yet?

Let’s say, for example, on September 6th at 11:30 AM, you leased 32,000 energy for 1 day. Then at 11:31 AM, you used up 32,000 energy for USDT transfers. According to the Tron mechanism, energy keeps recovering after being used, and it reaches full recovery within 24 hours. That means on September 7th at 11:31 AM, your energy will be restored to 32,000. You might wonder, “Isn’t that pointless? My energy expired at 11:30 AM, and you’ve all reclaimed it. What’s the use of having 32,000 energy restored?” But what if you use it before we reclaim the energy? Let me demonstrate this with a mathematical problem. One day has 24 hours, which is equivalent to 48 half-hour periods. Let’s calculate how much energy our account will recover before the energy is reclaimed. 32,000÷48×(48-1)≈31,333 energy. This means that even if you transfer USDT half an hour before the energy is reclaimed, you still have about 31,333 energy to use. The current fee for a 1 USDT transfer is 31,895 energy, and even if you’re short by 562 energy, that’s not much. It’s approximately 0.2 TRX. This means that by renting energy for 1 day for 1 transfer, you can actually use it for 2 transfers.

Remember, energy starts recovering only after it’s used up. In fact, even 1-hour energy leasing is about reclaiming energy and then renting it to the next user after 24 hours. If you understood the above explanation, the examples given below will help you understand it even better.

Example 1:

On September 6th at 11:30 AM, I rented 20 instances of 1-day energy, which means I rented 640,000 energy with an effective duration of 24 hours. I was busy with my business and used up all 20 instances by 11:40 AM. This means that from 11:40 AM onwards, the energy would recover at a rate of 640,000÷24≈26,667 energy per hour. According to this recovery rate, it means you can make at least 1 more transfer every 2 hours. Calculating at 2 hours, it’s 1.5 transfers. So, before the energy expires and is reclaimed, you can actually make an additional 18 transfers. That means you rented 20 instances and can make 38 transfers within 24 hours.

Example 2:

On September 6th at 11:30 AM, I rented 20 instances of 1-day energy, which means I rented 640,000 energy with an effective duration of 24 hours. I used 10 instances at 12:30 PM, which means from 12 PM onwards, the energy would recover at a rate of 320,000 (the energy value of 10 instances)÷24≈13,333 energy per hour, which is equivalent to having enough energy for an additional transfer every 3 hours. At 6:30 PM, I used up the remaining 10 instances. So, after 6:30 PM, the energy recovery rate would be 13,333 (the recovery rate of the initial 10 instances) + 13,333 (the recovery rate after using up the energy at 6:30 PM)≈26,666 energy per hour. That means, before the energy is reclaimed, you can make approximately 17 transfers: (from 6:30 PM to the next day at 11:30 AM)÷2×1.5 (as explained in example 1, 1.5 transfers every 2 hours) + 2 transfers (from 12:30 PM to 6:30 PM, 6 hours, 1 additional transfer every 3 hours) = 14.75 transfers. So, if you rented 20 instances, you can make 34-35 transfers within 24 hours.

The above two examples illustrate that energy starts recovering after it’s used, and the data is rounded for easier calculation and understanding in terms of time and number of transfers