Assessment Year | 2012 |
---|---|
Principal Product | beer |
NAICS | 312120: Breweries |
SIC | 2082: Malt Beverages |
Sales Range | $100 M to 500M |
# of Employees | 110 |
Plant Area |
125,000
ft2
|
Annual Production | 572,333
units
|
Production Hrs. Annual | 8,400
hrs
|
Location (State) | Ohio |
Facility Energy Cost and Usage
Source | Yearly Cost | Usage | Unit Cost | |
---|---|---|---|---|
Electricity Usage | $567,967 | 9,244,344 |
kWh
|
$0.061 |
Electricity Demand | $115,892 | 21,732 |
kW-mo/yr
|
$5.33 |
Natural Gas | $496,353 | 103,893 |
MMBtu
|
$4.78 |
TOTAL YEARLY COSTS | - | |||
RECOMMENDED SAVINGS* | $156,883 |
See individual recommendations below
*Non-energy impacts included in savings.
|
||
IMPLEMENTED SAVINGS* | - |
Recommendations
# | Description | Yearly Savings* | Imp'd Cost* | Status | Electricity Usage Savings | Electricity Demand Savings | Electricity Fees Savings | Natural Gas Savings |
---|---|---|---|---|---|---|---|---|
01 | 2.3212: Optimize plant power factor | $3,291 | $8,000 | - | - | $3,291 | - | |
02 | 2.7135: Install occupancy sensors | $4,289 | $1,200 |
$3,728
62,133
kWh
|
$561
-
kW-mo/yr
|
- | - | |
03 | 2.4133: Use most efficient type of electric motors | $30,494 | $36,750 |
$23,578
392,964
kWh
|
$6,916
-
kW-mo/yr
|
- | - | |
04 | 2.4236: Eliminate leaks in inert gas and compressed air lines/ valves | $1,395 | $1,000 |
$1,035
27,243
kWh
|
$360
-
kW-mo/yr
|
- | - | |
05 | 2.4226: Use / purchase optimum sized compressor | $1,071 | $1,500 |
$1,071
17,857
kWh
|
- | - | - | |
06 | 2.4221: Install compressor air intakes in coolest locations | $992 | $1,000 |
$813
13,550
kWh
|
$179
-
kW-mo/yr
|
- | - | |
07 | 2.4226: Use / purchase optimum sized compressor | $966 | $1,600 |
$792
13,200
kWh
|
$174
-
kW-mo/yr
|
- | - | |
08 | 2.1233: Analyze flue gas for proper air/fuel ratio | $5,463 | - | - | - | - |
$5,463
-
MMBtu
|
|
09 | 2.1113: Reduce combustion air flow to optimum | $4,015 | $9,000 | - | - | - |
$4,015
-
MMBtu
|
|
10 | 2.2692: Use outside cold water source as a supply of cooling water | $3,073 | $9,219 |
$2,471
41,186
kWh
|
$602
-
kW-mo/yr
|
- | - | |
11 | 2.2437: Recover waste heat from equipment | $42,877 | $83,500 |
$6,714
107,792
kWh
|
- | - |
$36,163
-
MMBtu
|
|
12 | 2.2628: Utilize a less expensive cooling method | $20,832 | $25,000 |
$19,279
321,322
kWh
|
$1,553
-
kW-mo/yr
|
- | - | |
13 | 2.2628: Utilize a less expensive cooling method | $15,846 | $24,600 |
$15,846
264,098
kWh
|
- | - | - | |
14 | 2.2626: Avoid frost formation on evaporators | $7,322 | - |
$7,322
122,040
kWh
|
- | - | - | |
15 | 2.3413: Burn fossil fuel to produce steam to drive a steam turbine-generator and use steam exhaust for heat | $14,957 | $123,000 |
$18,000
300,000
kWh
|
$3,960
-
kW-mo/yr
|
- |
$(-7,003.0)
-
MMBtu
|
|
TOTAL RECOMMENDED | $156,883 | $325,369 |
$100,649
1,683,385
kWh
|
$14,305
-
kW-mo/yr
|
$3,291 |
$38,638
-
MMBtu
|
||
TOTAL IMPLEMENTED | - | - | - | - | - | - | ||
Yearly Savings* | Imp'd Cost* | Electricity Usage Savings | Electricity Demand Savings | Electricity Fees Savings | Natural Gas Savings |
*Savings and costs are best estimates based on the center's site visit, associated engineering analysis, and typical capital and labor costs