Eliminates the time-consuming and costly problem of exchanging silica gel for moisture and condensation countermeasures
Resolved with technology that reduces the failure rate and maintenance cost of NTT's infrastructure equipment!!
Key points of the solution
Reliable countermeasures implemented nationwide to prevent failures caused by moisture and condensation in NTT infrastructure facilities.
Although the initial cost is higher than silica gel, it becomes cheaper over a period of more than one year of use.
Because it is thin, lightweight, and flexible, it can be installed in gaps within existing equipment.
solution
This product is a solution that reduces the failure rate and maintenance costs of NTT's infrastructure equipment.
Mr. S, who attended a networking event for people involved in the mega solar power business, exchanged information with other participants about condensation countermeasures. He learned that NTT facilities had similar problems and that there were countermeasures that had solved them. Conventional dehumidifiers, such as silica gel, lose performance as they absorb moisture. In contrast, the countermeasure product has superior moisture absorption and release functions, absorbing moisture when humidity rises and releasing the absorbed moisture back into the air when humidity drops. As a result, the moisture absorption function is restored and the effect can be maintained over the long term. Mr. S became interested and decided to contact NTT Advanced Technology, which handles the countermeasure product.
During the explanation from the representative, I learned that NTT's equipment had a track record of being used for 10 years without replacement, so I decided to proceed with considering its introduction. Furthermore, I learned that the condensation prevention sheet "Humidity Control Sheet," which has been improved so that it can be used in equipment other than NTT's, is receiving increasing inquiries and has a track record of being implemented by infrastructure companies and equipment manufacturers other than NTT.
The cost is also cheaper than silica gel for the first year of use.
Regarding costs, although the initial investment is higher than silica gel, the elimination of the need for quarterly replacements means that the cost becomes more cost-effective after one year of use. Mr. S, who had high hopes for Humidity Control Sheet, first introduced it to a portion of his equipment to verify its effectiveness. After confirming that it delivered the expected results, he decided to implement it on a full scale.
- We introduced Humidity Control Sheet to only one of the identical devices. We observed that the humidity inside the device without Humidity Control Sheet fluctuated drastically between day and night.
- The yellow area at the top of the graph indicates a high-humidity environment with humidity levels above 80%. In such high-humidity environments, the risk of electronic component failure due to condensation increases.
- On the other hand, the humidity inside the device to which Humidity Control Sheet is attached remains within a certain range. This is because Humidity Control Sheet absorbs and releases moisture as the humidity fluctuates.
"Humidity Control Sheet is exactly the product I've always wished for. It reduces the hassle and cost of replacement while providing a solution for condensation. I plan to incorporate it into future designs and proposals." (Mr. S)