meea industrial webinar: industrial refrigeration – opportunities for energy efficiency and cost...
DESCRIPTION
Industrial refrigeration systems are a significant consumer of electrical energy in food processing, cold storage, and chemical processing industries throughout the Midwestern United States. This webinar, presented by Bryan Hackett, P.E., of kW Engineering, will covered the following topics: • The basics of industrial refrigeration systems, • A review of proven energy efficiency measures (EEMs) and how to identify potential applications for each, and • The respective energy and cost savings for each. Industrial and commercial utility program managers, end-user plant managers, refrigeration system operators, contractors, and solution vendors will get a better understanding of industrial refrigeration as an integrated system, how key components can be optimized to improve efficiency, and the energy and financial motivations for pursuing the discussed EEMs Bryan Hackett, P.E. - Senior Engineer II, kW Engineering Bryan leads kW Engineering’s Industrial Services Team, providing energy and water auditing, retro-commissioning, technical support services, and implementation management to industrial facilities across the country. Bryan has performed over 150 industrial energy audits and is the lead author of two papers on energy savings at food processing and refrigeration facilities. Bryan is a licensed Professional Mechanical Engineer with over 17 years of experience working with commercial, institutional, and industrial clients. As one of the leaders of kW's technical staff of 47 engineers, Bryan takes great pride in getting CFOs excited about sustainability by delivering results at the meter and on the bill.TRANSCRIPT
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MEEA’s Midwest Industrial Initiative Webinar:
Industrial Refrigeration – Opportunities for Energy
Efficiency and Cost Savings
June 6, 201312:00PM-1:00PM CDT
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MEEA’s Role in the Midwest• Non-profit serving 13 Midwest states• 10+ years serving state energy offices,
utilities, ESCOs, state and local government, manufacturers
• 150+ Members• Staff of 25 in Chicago• Actions
– Advancing Energy Efficiency Policy– Promoting Best Practices – Delivering Training & Workshops– Coordinating Multi-Utility Program Efforts– Designing & Administering Energy Efficiency
Programs – Evaluating & Promoting Emerging Technologies– Regional Voice for DOE/EPA & ENERGY STAR
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Midwest Industrial Initiative (MI2)
In Fall 2010, MEEA has created the MI2 in order to:• Promote adoption of energy efficiency in the industrial sector• Provide information on electric and natural gas utility energy
efficiency rebates and programs• List national and local energy efficiency best practices and
technology information• Offer catalog of case studies of successful energy efficiency
implementation
www.midwestindustrial.org
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www.midwestindustrial.org
• Dedicated website on Industrial Efficiency in the Midwest– Utility, state and local case studies– Catalogue of utility industrial contacts– Utility programs– Industrial opt out and self direct policies– EIA data by state and fuel
• Social media presence – www.twitter.com/industrialEE
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MI2 Activities • Quarterly regional utility calls
• Midwest presence for SEEAction Industrial working group and CHP group
• Developing Midwest CHP working group
• MI2 to be conduit of efficiency information to industrial companies and industrial associations
• Promote successful efficiency programs, technologies and financing mechanisms
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MI2 Upcoming Webinars
• WRI Paper and Pulp Report• Mitsubishi – review of manufacturing
facility improvements• Baltimore Gas & Electric – CHP as
part of cost effective efficiency program
• Dates Forthcoming…
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Reminders for Today’s Webinar
• Submit questions in the chat box in the right panel
• Q&A will take place after the presentation is complete
• Presentation will be available on http://www.midwestindustrial.org/resources/webinars
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Midwest Industrial Initiative Webinar:Industrial Refrigeration
Opportunities forEnergy Efficiency and Cost
Savings
Bryan Hackett, PE
kW Engineeringwww.kw-engineering.com
Thursday, June 6, 2013
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What we’ll cover
What is industrial refrigeration, and how is it different from conventional HVAC?
The refrigeration cycle Major system components Typical energy efficiency
measures (EEMs) Resources
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About me
Bryan Hackett, PE, Sr. Engineer II 17 years of experience
Multiple papers published on energy savings in food processing and refrigeration facilities 2 as lead author
Industrial Services Team Leader at kW Energy and water audits (led 150+) Technical support and calc assistance Retro-commissioning (RCx) Implementation support Remote energy management Emerging technologies evaluation
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What is industrial refrigeration?
Size: 100 tons and larger Refrigerant: Ammonia (R717) in most cases, R22 in a
few cases System Types: Centralized and built-up Load Temps: -60°F to 55°F
Industries: Refrigerated warehouses Fruit and vegetable processors Breweries, wineries, and carbonated
beverages Dairy and ice cream processors Meat, poultry, and fish Chemical, petrochemical, and pharmaceutical
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How does it differ from Commercial Refrigeration or HVAC?
Commercial refrigeration systems tend to be smaller, modular, and may use multiple refrigerants at a given site.
Large HVAC systems are used to cool spaces at temperatures greater than 55°F.
Industrial refrigeration mostly used flooded-type evaporator coils, while commercial refrigeration and HVAC almost always use DX-type evaporator coils.
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Basic Refrigeration Cycle
Evaporation Compression Condensation Expansion Condenser
Evaporator
Power InExpansion Valve
Compressor
Heat Rejected
Heat Absorbed
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Evaporation
Cold liquid refrigerant absorbs heat
Liquid refrigerant boils (evaporates)
Liquid → vapor Latent heat of
vaporization Constant pressure
and temperature
Condenser
Evaporator
Power InExpansion Valve
Compressor
Heat Rejected
Heat Absorbed
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Compression
Reduction in volume of vapor
Increase in pressure and temperature
Requires external work (power)
Raises the boiling point of the refrigerant
Power depends of Lift
Condenser
Evaporator
Power InExpansion Valve
Compressor
Heat Rejected
Heat Absorbed
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Evaporators
All cooling happens at an evaporator.
Evaporators can be broken into two main types: Air-Coolers Liquid-chillers
3 ways of supplying liquid refrigerant to evaporators Liquid Recirculation Flooded Direct Expansion (DX)
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Air-Coolers
Evaporator fan-coil Coils often have fins to
increase heat transfer surface
Fans move air over coil Refrigerated air is used
to cool space or product Hot gas defrost is
commonly used for evaporators operating at less than 32oF
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Air-Coolers (cont’d)
To maintain space temperature Freezers Coolers Industrial A/C
Process/Product cooling Spiral freezers Blast freezers Pressure coolers
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Liquid Chillers Heat Exchangers
The most common types of heat exchangers for liquid chilling are: Shell-and-tube Plate-and-frame (pictured) Falling-film Scraped-surface
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Compressors
The purpose of a compressor is to increase the pressure and temperature of the refrigerant vapor so that heat can be rejected in the condenser.
The most common types of compressors used in industrial refrigeration are: Reciprocating Rotary Screw Rotary Vane
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Reciprocating Compressors
Use: High and low-temperature
applications Configuration:
Booster, high-stage, and single-stage
Compression ratios: Max. of 8:1 with ammonia
Maximum size: Approx. 300-hp
Capacity control: Typical cylinder unloading Relatively good part-load
performance
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Rotary Screw Compressors
Use: High and low-temperature applications
Configuration: Booster, high-stage, and single-stage
Compression ratios: Max. of 20:1 with ammonia
Maximum size: >1500-hp
Capacity control: Typically slide valve. Part-load performance not as good as
cylinder unloading. Older technologies such as poppet
valves and inlet throttling are even worse.
VFDs becoming more common on new compressors.
Almost as good as cylinder unloading.
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Oil Cooling
Screw compressors use oil for lubrication and cooling during compression, so the oil must be continuously cooled to maintain operating temperature.
There are two main types of oil cooling in use: Liquid injection External
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Liquid Injection
Liquid injection uses high-pressure liquid refrigerant to flash-cool when injected into the compressor body via a DX-valve.
This oil cooling method is simple and inexpensive to implement.
However, liquid injection imposes a power penalty typically of 1-3%, but can be as high 10% for low-temperature, single-stage operation.
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External Oil Cooling
There are two common types of external oil cooling: Thermosiphon
(pictured) Recirculated Water
or Glycol
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Condensers
Reject heat from the system absorbed into the refrigerant.
Evaporative condenser most common (pictured).
Air-cooled or shell-and-tube heat exchangers less common.
Use fans to force or induce airflow to enhance heat rejection.
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Evaporative Condensers
Water is sprayed over refrigerant tubes.
Heat from refrigerant vapor is transferred to water.
Air is drawn in from the bottom of the condenser.
Some of the water evaporates into the air.
Warm, moist air leaves through the top of the condenser.
Heat rejection rate is a function of ambient wet-bulb temperature.
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Two-Stage Compression
Improved efficiency for low-temperatures systems (-25 °F and less).
Intercooler to provide inter-stage desuperheating.
Can efficiently support multiple evaporation (process) temperatures.
Can implement subcooling or flash-cooling.
Condenser
Evaporator
Power In
High-Stage Compressor
Heat Rejected
Heat Absorbed
Power In
Low-Stage Compressor
Evaporator
Heat Absorbed
Intercooler
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List of Typical EEMs and Def’ns
Controls Measures: Floating head
pressure control Compressor staging
controls Active defrost
management
Equipment Retrofit Measures: VFDs on Evaporator
Fans VFDs on Condenser
Fans VFDs on Screw
Compressors Condensate
Subcooling Desuperheater
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Floating Head Pressure Control
Most systems have a fixed head pressure setpoint
Reset head pressure setpoint based on wet-bulb temperature
Reduction in compressor energy usage
Increase in condenser fan energy usage
Savings depends on: Current setpoint
pressure Existing condensing
capacity Local weather data
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Compressor Staging Controls
Minimize screw compressors operating at part-load.
Base load screw compressors at 100% load.
Select most efficient part-load compressor for trim.
Plant energy savings up to 15%.
Simple payback period from
1 to 3 years.
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Active Defrost Management
Controlling the initiation of a defrost cycle.
Controlling the termination of a defrost cycle.
Reducing unnecessary refrigeration load.
Plant energy savings up to 3%.
Simple payback period from
2 to 4 years.
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VFDs on Evaporator Fans
Reduces fan speed based on refrigeration load.
Large reduction in fan power for a small reduction in speed.
Helps reduce heat generated in cold storage spaces.
Plant energy savings up to 2%.
Simple payback period from
1 to 3 years.
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VFDs on Condenser Fans
Reduces fan speed based on heat rejection load and wet-bulb temperature.
Large reduction in fan power for a small reduction in speed.
Helps maintain a steady head pressure.
Benefits from floating head pressure control.
Plant energy savings up to 3%.
Simple payback period from
1 to 2 years.
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VFDs on Screw Compressors
Improves part-load performance of screw compressor.
VFD reduces compressor speed down to 40 – 50%.
Existing slide-valve is used below minimum speed.
Not recommended as a retrofit solution for all screw compressors.
Plant energy savings up to 15%.
Simple payback period from
2 to 4 years.
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Condensate Subcooling
Increases low-temperature refrigeration capacity.
Reduces low-stage (booster) compressor energy usage.
Slightly increases high-stage compressor energy usage.
Plant energy savings up to 4%.
Simple payback period from
1 to 5 years.
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Desuperheater
Reduces process heating loads, such as sanitation water heating.
Can slightly increase the condensing capacity of the existing condenser.
Slight reduction in compressor energy usage.
Most beneficial to plants with steady hot water loads.
Plant energy savings up to 2%.
Simple payback period from
3 to 5 years.
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Resources
“Industrial Refrigeration Best Practices Guide” by the Industrial Efficiency Alliance
“Industrial Refrigeration Handbook” by W.F. Stoecker
“Industrial Refrigeration Systems Energy Efficiency Guidebook” by the Industrial Refrigeration Consortium (IRC)
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Questions?
Bryan Hackett, P.E., Senior Engineer IIkW EngineeringEmail: [email protected]: 510.229.5640 (direct)
kW Engineering Midwest Engineering Office200 East Randolph Street, Suite 5100Chicago IL, 60601Phone: 312.577.7615 (main)Web: http://www.kw-engineering.com
Contact:Gary Graham, CEM, LEED-APMidwest Marketing ManagerPhone: 630.890.2935 (mobile)Email: [email protected]