Pneumatic or Electric? -How to decide which actuator to use

This webinar will be available afterwards at

www.designworldonline.com

Q&A at the end of the presentation

Hashtag for this webinar: #PvsE

Before We Start

Moderator

Paul J. Heney Design World

Presenter

Bob Kral Bimba Manufacturing

Pneumatic or Electric?

How to decide which actuator to use.

• Criteria to Consider

• Pneumatic o Performance

o Costs

o Best application scenario

• Electric o Performance

o Costs

o Best application scenario

• Case Study: Pneumatic Over Electric

• Case Study: Electric Over Pneumatic

• Freebie: Pneumatic versus Electric Cost Calculator

• Q&A

Agenda

Criteria to Consider

• Performance advantages and disadvantages

• Installation and maintenance costs

• Operating (power) costs

• Productivity gains o Reduced downtime

o Increased capacity

o Labor savings

Pneumatic or electric actuators?

Pneumatic Actuator Performance

Characteristics • High force and speed

• Force and speed are independent and easily adjusted

• Economical to oversize

• Small footprint

• Simple implementation

• Extend and retract only

• System requirements: o Compressor

o Air lines

o Fittings

o Filters

o Regulators

o Lubricators

…which limit where it can be deployed

Pneumatic or electric actuators?

Pneumatic Actuator Costs

• Component costs are low

• Operating costs dominated by compressor power consumption (~76%) o Efficiency is lower at idle

o Idling at no load wastes electric power consumption

o Oversized cylinders and compressors waste money

• Other operating and maintenance costs (~24%)

• Best scenario: o Large scale deployment

o Efficiently sized compressor

o No labor savings or production downtime savings are achievable

Pneumatic or electric actuators?

Electric Actuator Performance

Characteristics • Trade speed for thrust and thrust for speed

• Accurate sizing is critical o Over sizing is expensive

o Under sized actuators will not perform

o Force and speed limits are locked in by design

• Precise control and positioning

• Adapt machines to flexible processes

• “Portable” – install anywhere electric power is available

• More complex to implement

Pneumatic or electric actuators?

• High unit cost

• High replacement cost o Modular designs help minimize replacement costs

o Mechanical wear parts – 3 year life

o Electrical components – 5 to 10 year life

• Low power consumption

• Flexibility can yield cost savings o Eliminate costly downtime

o Eliminate time consuming change-overs

o Not automatic – needs to be designed in

• Best scenario o Smaller scale deployment

o Effects process improvements or cost savings through automation

Pneumatic or electric actuators?

Electric Actuator Costs

Cost of Electricity • Average retail price: 9.74 cents per kilowatt-hour (kWh)

o Residential: 11.3¢ per kWh

o Transportation: 10.7¢ per kWh

o Commercial: 10.4¢ per kWh

o Industrial: 6.8¢ per kWh

• Highest average price of electricity: o Hawaii (29.20¢ per kWh)

o Connecticut (16.95¢ per kWh)

o New York (16.74¢ per kWh)

• Lowest average price: o West Virginia (5.59¢ per kWh)

o Wyoming (5.68¢ per kWh)

o Idaho (5.70¢ per kWh)

Pneumatic or electric actuators?

Compressor Sizing Calculator

Inputs: o Average bore size

o Average stroke length

o Average time for stroke

o Number of cylinders

o % of cylinders that actuate simultaneously

Output: o CFM required

o Find compressor HP using the CFM number and the manufacturer’s specifications

Pneumatic or electric actuators?

Case Study

Pneumatics over Electrics • Pneumatic solution

o 200 HP compressor

• 2,000 hours per year at full load, 93% efficiency ($0.10/kWh)

• When not in use it is off

o 150 pneumatic actuators deployed

• Average unit cost: $50

• Life expectancy: 3 years

• Electric solution o 150 electric actuators deployed

• All-in-one design: includes driver and controller but not DC power supply

• Average unit cost: $1,200

• Life expectancy: 3 years

o Actuator draws 6A fully loaded at 48 VDC; fully loaded 30% of the time

o Actuator draws 3A at 48 VDC 70% of the time

o Power supplies draw 6A at 120 VAC fully loaded, producing 9A at 48 VDC

Pneumatic or electric actuators?

Case Study

Pneumatics over Electrics • Pneumatic solution

o Annual cost of compressed air: $42,237

o Replacement cost of actuators: $2,500 per year

o Total annual cost: $44,737

o Total annual cost per actuator: $298

• Electric solution o Annual cost at full load: $4,320

o Annual cost at idle: $5,040

o Annual operating cost: $9,360

o Replacement cost of actuators: $60,000 per year

o Total annual cost: $69,360

o Total annual cost per actuator: $462

Pneumatic or electric actuators?

Case Study

Pneumatics over Electrics

Pneumatic or electric actuators?

Pneumatic Costs Electric Costs

Electrics over Pneumatics • Pneumatic solution

o 100 HP compressor

• 2,000 hours per year at full load, 90% efficiency ($0.10/kWh)

• When not in use it is idling at 25% power and 85% efficiency

o 20 pneumatic actuators deployed

• Average unit cost: $50

• Life expectancy: 3 years

• Electric solution o 20 electric actuators deployed

• Modular: Motor/actuator and separate controllers

• Average unit cost: $900 for actuator and $1,200 for electronics

• Life expectancy: 3 years for actuators, 10 years for electronics

o Actuator draws 6A fully loaded at 48 VDC; fully loaded 30% of the time

o Actuator draws 3A at 48 VDC 70% of the time

o Power supplies draws 6A at 120 VAC fully loaded, producing 9A at 48 VDC

o Process improvement: Automates a line change

• Saves 2 hours every week for 2 employees at $30/hr each

• Saves 2 hours of lost production: 100 products/hr, $1 per product

Pneumatic or electric actuators?

Electrics over Pneumatics

• Pneumatic solution o Annual cost of compressed air: $21,882 full load

o Annual cost of compressed air: $19,351 at 25% power

o Replacement cost of actuators: $333 per year

o Total annual cost: $41,506

o Total annual cost per actuator: $2,075

• Electric solution o Annual cost at full load: $576

o Annual cost at idle: $672

o Annual operating cost: $1,248

o Replacement cost of electronics: $2,400 per year

o Replacement cost of actuators: $6,000 per year

o Total annual cost: $9,648

o Savings, changeover labor: $6,240

o Savings, lost production: $10,400

o Net results of deployment: $6,992 COST REDUCTION!

Pneumatic or electric actuators?

Case study

Electrics over Pneumatics

Pneumatic or electric actuators?

Pneumatic Costs Electric Costs

Bimba now features a Pneumatic versus Electric Actuator

cost evaluation spreadsheet, which is available for download

from bimba.com

This spreadsheet allows a person to estimate pneumatic and

electric costs, facilitating a comparison and selecting the

correct actuator depending upon the application

Cost Evaluation Calculator

Thank you for attending!

Bimba.com

800-44-Bimba

Questions?

Design World Paul Heney Pheney@wtwhmedia.com Phone:440.234.4531 Twitter:@wtwh_fluidpower

Bimba Manufacturing Bob Kral Kralr@bimba.com Phone: 708.235.2067

Thank You

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