2015 11-19-card unexpected-wies_farragtech

COMPRESSED AIR DRYING

UNEXPECTED WAYS

IN ENERGY SAVINGS

SPECIFIC ENERGY FOR COMPRESSED AIR

0,100

0,110

0,120

0,130

0,140

0,150

0,160

0,170

0,180

18 39 63 76 100

k

Wh

/ m

³

Compressor’s load in %

GA55 VSD IFD


0,100

0,110

0,120

0,130

0,140

0,150

0,160

0,170

0,180

18 39 63 76 100%

k

Wh

/ m

³

18% load

Air flow [m³/h] 94

Specific energy for compr. air

[kWh/m³]

0.173

Total power consumption [kW] 16.3 kW


0,100

0,110

0,120

0,130

0,140

0,150

0,160

0,170

0,180

18 39 63 76 100%

k

Wh

/ m

³

63% load

Air flow [m³/h] 381


[kWh/m³]

0.114

Total power consumption [kW] 43.4 kW


18% load 63% load Differenc

e

Air flow [m³/h] 94 381 287


[kWh/m³] 0.173 0.114 0,095

Total power consumption [kW] 16.3 kW 43.4 kW 27.1 kW

LOWER SPECIFIC ENERGY through ADDITIONAL compressed air

equipment!

MAXIMIZING COMPRESSOR’S LOAD

REDUCES

SPECIFIC ENERGY COSTS

OF COMPRESSED AIR

FACT 1

STANDARD COMPRESSED AIR DRYER

0

50

100%

Heating

Compressed Air

80°C 180°C Energy requirement at:

2-CIRCUIT COMPRESSED AIR DRYER

0

50

100%

Heating

Compressed Air

80°C 180°C Energy requirement at:

2-CIRCUITS COMPRESSED AIR DRYER

0

50

100%

Heating

Compressed Air

Standard Two-circuits

80°C

80°C

180°C

180°C

Energy requirement:

ONLY POSSIBLE THROUGH PATENTED CARD-SYSTEM

CARD M CARD L

THE MAJOR TASK OF DRYING IS TO HEAT-UP!

2-CIRCUIT SYSTEM

DRASTICALLY REDUCES

ENERGY COSTS

OF COMPRESSED AIR DRYING

FACT 2

METHODS OF ENERGY RECOVERY

High-level

placement of CARD

reduces

energy costs

up to 10%


0

50

100%

Heating

Compressed Air

20°C 35°C Secondary air inlet temperature:

ENERGY CONSUMPTION OF

A DRYING PROCESS

WITH 80°C


Heat recovery from plant’s energy resources


Heat recovery

from integrated

air compressor

CARD R


0

50

100%

Heating

Compressed Air

w/o with Heat recovery:


A DRYING PROCESS

WITH 80°C


Heat and air recovery on blow-molding applications


0

50

100%

Heating

Compressed Air

w/o with Air and heat recovery:


A DRYING PROCESS

WITH 80°C

0

50

100%

36%

22%

Standard Two-circuits High-level Heat recovery Heat & air

recovery


100%

38%

0,1%

CARD (2-CIRCUIT-SYSTEM)

ENABLES UNIQUE WAYS

OF ENERGY RECOVERY

TO LOWER

ENERGY REQUIREMENTS

FACT 3

0

25

50

75

100

Desiccant dryernew

Desiccant dryer20% less efficiency

CARD2-circuits

CARDhigh-level

CARDheat recovery

%

ANALOGY TO COMMON DRYING SYSTEMS

TOTAL ENERGY CONSUMPTION


ENERGY REQUIREMENT FOR DRY AIR ON DESICCANT SYSTEM

23.2 kW for 1000kg air = 0.028 kW/m³

36.0 kW for 1000kg air = 0.043 kW/m³

Density of air: 1,2041 kg/m³

ENERGY REQUIREMENT FOR COMPRESSED AIR

0.110 kW/m³

0.150 kW/m³

0,100

0,120

0,140

0,160

0,180

kW

h /

m³


225L DRYING HOPPER Desic. Dry.

new

Desic. Dry.

20%

CARD

2-circuit

CARD

High-level

CARD

Recovery

Energy for dry air 2.0 kW 2.4 kW 2.0 kW 2.0 kW 2.0 kW

Energy to heat-up material 1.5 kW 1.5 kW 1.5 kW 1.1kW 0.0 kW

Total 3.5 kW 3.9 kW 3.5 kW 3.1 kW 2.0 kW

ADVANTAGES ON CARD(2-CIRCUITS)-SYSTEM

THE LONGER THE OPERATING TIME THE

HIGHER THE ENERGY SAVINGS

NO MAINTENANCE COSTS

CONSTANT DRYING EFFICIENCY FOR FULL

LIFE-TIME

DRYING WITH

COMPRESSED AIR

IS NOT EXPENSIVE!

FACT 4

THANK YOU!

2015 11-19-card unexpected-wies_farragtech

Technology

Transcript of 2015 11-19-card unexpected-wies_farragtech