Nitigura Jacket
Products
What is "Nitigura Jackets"?
They are thermal insulation covers that are removable and prevent energy loss and heat transfer from high-temperature equipment.
Nitigura jackets are used for heat insulation, thermal insulation, and heat shielding for valves, boilers, injection molding machines, and other equipment that consume large amounts of energy. Just applying our Nitigura jackets to your epuipment reduces the heat transfer and bring you great benefits in electricity and fuel bills.
- Energy Saving
- Safety Improvement
Conserve enegy by preventing heat transfer from pipes and valves!
The reasons of the choosing
-
From raw material to finished product
We handle everything from material selection to equipment measurements, sewing, and installation.
We also use our own heat-resistant insulation jacket products, dust-proofing, and waterproofing to meet various temperature ranges from low to high temperatures.
Temperture Ranges and Material Options
The materials used in Nitigura jackets can be selected for various temperature ranges from low to high temperatures according to the purpose of use and application.
No Binder, Adhesive or Phenolic Resin Used
Temperture Ranges and Material Options
| Temperture ranges | Material options |
|---|---|
| Over 1000 degrees | Silica Fiber / AES Fiber / Alumina Fiber |
| 500〜1000℃ | Silica Fiber / Heat-resistant Glass Fiber |
| 250〜500℃ | Glass Fiber |
| -20〜250℃ | Glass Fiber cloth with silicon coating or PTFE coating |
| -20〜100℃ | Glass fiber cloth with aluminum foil |
Our Experiences
injection molding
Furnaces
machine
exchanger
furnace
machine
Examples of energy saving effect
Annual reduction effect (example)
| Type of Fuel | Type of Industry | Equipment | Heat dissipation temperature | Surface area | Operating hours | Annual economic benefits |
|---|---|---|---|---|---|---|
| Electricity | Metal Manufacturing | Combustion Furnaces | 150℃ | 13㎡ | 5,000h | Cost saving ¥273,000 |
| Sheet Manufacturing | Heating Equipment | 165℃ | 6㎡ | 5,040h | Cost saving ¥110,000 | |
| Resin products | Injection Molding Machine (3,000t) |
220℃ | 4㎡ | 3,024h | Cost saving ¥205,000 | |
| City gas | Resin products | Hot air dryer | 165℃ | 1㎡ | 1,800h | Cost saving ¥128,000 |
| Heavy Oil | Food | Water supply tank | 75℃ | 8㎡ | 4,800h | Cost saving ¥152,000 |
-
- Type of Fuel
- Electricity
- Type of Industry
- Metal Manufacturing
- Equipment
- Equipment
- Heat dissipation temperature
- 150℃
- Surface area
- 13㎡
- Operating hours
- 5,000h
- Annual economic benefits
- 273,000円削減
-
- Type of Fuel
- Electricity
- Type of Industry
- Sheet Manufacturing
- Equipment
- Heating Equipment
- Heat dissipation temperature
- 165℃
- Surface area
- 6㎡
- Operating hours
- 5,040h
- Annual economic benefits
- 110,000円削減
-
- Type of Fuel
- Electricity
- Type of Industry
- Resin products
- Equipment
- Injection Molding Machine(3,000t)
- Heat dissipation temperature
- 220℃
- Surface area
- 4㎡
- Operating hours
- 3,024h
- Annual economic benefits
- 205,000円削減
-
- Type of Fuel
- City gas
- Type of Industry
- Resin products
- Equipment
- Hot air dryer
- Heat dissipation temperature
- 165℃
- Surface area
- 1㎡
- Operating hours
- 1,800h
- Annual economic benefits
- 128,000円削減
-
- Annual economic benefits
- Heavy Oil
- Type of Industry
- Food
- Equipment
- Water supply tank
- Heat dissipation temperature
- 75℃
- Surface area
- 8㎡
- Operating hours
- 4,800h
- Annual economic benefits
- 152,000円削減
A calculation sheet of electricity reduction (an example) / Combustion Furnace
| Before installation | After installation | Remarks | |
|---|---|---|---|
| Thermal transfer amount | 900W/㎡ | 102W/㎡ | Calculated using the heat-retention formula in Appendix JIS A 9501 |
| Thermal transfer amount(unit conversion) | 774Kcal/㎡・h | 88Kcal/㎡・h | W=0.86Kcal/h |
| Surface area of heat dissipation | 13.058㎡ | 13.058㎡ | Surface area to be installed |
| Loss of thermal transfer amount | 10,107Kcal/h | 1,149Kcal/h | Thermal transfer amount (Kcal/㎡-h)×Surface area of heat dissipation |
| Electricity amount(1Kwh=2,236kcal) | 4.520Kw | 0.510Kw | Calculated based on 1Kwh=2,236kcal |
| Operating hours(h/year) | 5,000h | 5,000h | Assumption |
| Electricity reduction after jacket installation(per hour) | (4.52-0.51)×5,000=20,050Kw | Amount of electricity before installation - amount of electricity after installation | |
| Electricity bill | JPY 13.66 / Kwh | depends on your unit price | |
| Estimated electricity reduction(per year) | JPY 273,883 | JPY /Kwh x operating hours | |
-
Thermal transfer amount
Before installation:900W/㎡
After installation:102W/㎡
【Remarks】
Calculated using the heat-retention formula in Appendix JIS A 9501 -
Thermal transfer amount(unit conversion)
Before installation:774Kcal/㎡・h
After installation:88Kcal/㎡・h
【Remarks】
W=0.86Kcal/h -
Surface area of heat dissipation
Before installation:13.058㎡
After installation:13.058㎡
【Remarks】
Surface area to be installed -
Loss of thermal transfer amount
Before installation:10,107Kcal/h
After installation:1,149Kcal/h
【Remarks】
Thermal transfer amount (Kcal/㎡-h)×Surface area of heat dissipation -
Electricity amount(1Kwh=2,236kcal)
Before installation:4.520Kw
After installation:0.510Kw
【Remarks】
Calculated based on 1Kwh=2,236kcal -
Operating hours(h/year)
Before installation:5,000h
After installation:5,000h
【Remarks】
Assumption -
Electricity reduction after jacket installation(per hour)
(4.52-0.51)×5,000=20,050Kw
【Remarks】
Amount of electricity before installation - amount of electricity after installation -
Electricity bill
JPY 13.66 / Kwh
【Remarks】
depends on your unit price -
Estimated electricity reduction (per year)
JPY 273,883
【Remarks】
JPY /Kwh x operating hours
※COP=Coefficient Of Performance Cooling COP=Cooling Capacity (Kw)÷Cooling Power Consumption (Kw) Equipment, as listed in the catalog.
