Assessment Year | 2005 |
---|---|
Principal Product | Dry Veener Boards |
NAICS | 321212: Softwood Veneer and Plywood Manufacturing |
SIC | 2436: Softwood Veneer and Plywood |
Sales Range | $10 M to 50M |
# of Employees | 150 |
Plant Area |
100,000
ft2
|
Annual Production | 62,000
thousand feet
|
Production Hrs. Annual | 8,568
hrs
|
Location (State) | Oregon |
Facility Energy Cost and Usage
Source | Yearly Cost | Usage | Unit Cost | |
---|---|---|---|---|
Electricity Usage | $168,412 | 4,472,000 |
kWh
|
$0.038 |
Electricity Demand | $40,120 | 8,340 |
kW-mo/yr
|
$4.81 |
Electricity Fees | $6,227 | - |
|
- |
TOTAL YEARLY COSTS | - | |||
RECOMMENDED SAVINGS* | $160,070 |
See individual recommendations below
*Non-energy impacts included in savings.
|
||
IMPLEMENTED SAVINGS* | $40,880 |
Recommendations
# | Description | Yearly Savings* | Imp'd Cost* | Status | Electricity Usage Savings | Electricity Demand Savings | Electricity Fees Savings | Natural Gas Savings | Wood Savings | Personnel Changes Savings | Ancillary Material Cost Savings |
---|---|---|---|---|---|---|---|---|---|---|---|
01 | 2.4224: Upgrade controls on compressors | $19,500 | $5,400 |
$17,200
357,000
kWh
|
$2,300
-
kW-mo/yr
|
- | - | - | - | - | |
02 | 2.4221: Install compressor air intakes in coolest locations | $4,600 | $340 |
$3,800
105,000
kWh
|
$800
-
kW-mo/yr
|
- | - | - | - | - | |
03 | 4.231: Purchase equipment instead of leasing | $80,000 | $58,000 | - | - | - | - | - | - | $80,000 | |
04 | 2.7134: Use photocell controls | $2,330 | $100 |
$1,400
38,800
kWh
|
$480
-
kW-mo/yr
|
- | - | - | $450 | - | |
05 | 2.6122: Adjust vents to minimize energy use | $24,900 | $12 | - | - | - |
$24,900
-
MMBtu
|
- | - | - | |
06 | 2.4146: Use adjustable frequency drive or multiple speed motors on existing system | $9,100 | $15,400 |
$9,100
252,299
kWh
|
- | - | - | - | - | - | |
07 | 2.2511: Insulate bare equipment | $1,800 | $2,100 | - | - | - |
$1,800
-
MMBtu
|
- | - | - | |
08 | 2.7135: Install occupancy sensors | $1,450 | $3,590 |
$2,020
56,000
kWh
|
$(-200.0)
-
kW-mo/yr
|
- | - | - | $(-370.0) | - | |
09 | 2.3212: Optimize plant power factor | $2,090 | $5,200 | - | - | $2,090 | - | - | - | - | |
10 | 2.1213: Direct warmest air to combustion intake | $5,800 | $12,000 | - | - | - |
$100
-
MMBtu
|
$5,700
-
MMBtu
|
- | - | |
11 | 2.1213: Direct warmest air to combustion intake | $8,500 | $22,000 | - | - | - |
$8,500
-
MMBtu
|
- | - | - | |
TOTAL RECOMMENDED | $160,070 | $124,142 |
$33,520
809,099
kWh
|
$3,380
-
kW-mo/yr
|
$2,090 |
$35,300
-
MMBtu
|
$5,700
-
MMBtu
|
$80 | $80,000 | ||
TOTAL IMPLEMENTED | $40,880 | $18,142 |
$7,220
199,800
kWh
|
$1,080
-
kW-mo/yr
|
- |
$26,800
-
MMBtu
|
$5,700
-
MMBtu
|
$80 | - | ||
Yearly Savings* | Imp'd Cost* | Electricity Usage Savings | Electricity Demand Savings | Electricity Fees Savings | Natural Gas Savings | Wood Savings | Personnel Changes Savings | Ancillary Material Cost Savings |
*Savings and costs are best estimates based on the center's site visit, associated engineering analysis, and typical capital and labor costs