| |
"Fluorocarbons: Balanced Solutions for Society"
Commercial Refrigeration . . . A Working Example
A Worldwide Perspective
Commercial refrigeration is essential in today's
society, to preserve and protect food for people
around the world. A variety of systems are currently
used in supermarkets and retail food stores.
These include central refrigeration systems
connected to food display cases, self- contained
display cases and walk-in refrigerators and
freezers. New designs, known as distributed systems,
are also being used that place refrigeration
compressors and associated components near the
display cases that are being refrigerated. There
are also indirect systems in which a primary
refrigeration system cools a secondary fluid, which
then circulates through a secondary loop to the
display cases. In each case, the choice of
refrigerant will depend on the specific
requirements of the application.
Environmental Considerations for Commercial Refrigeration
Since the mid-1980s, commercial refrigeration
systems have undergone a transition from using
ozone depleting refrigerant compounds, including
chlorofluorocarbons (CFCs), to low or non-ozone
depleting compounds, such as hydrochlorofluorocarbons
(HCFCs) and hydrofluorocarbons (HFCs). Ammonia,
hydrocarbons and carbon dioxide are being used to a
lesser extent. Several of these compounds, while
non-ozone depleting, do have global warming
potential (GWP). There are two aspects to global
warming that must be considered when selecting a
refrigerant. One is the GWP of the refrigerant
compound itself if emitted, the "direct effect."
Another concerns the amount of energy consumed to
operate the equipment, the "indirect effect." The
two aspects considered together represent the most
significant portions of Life Cycle Climate
Performance, or LCCP. Significant additional
considerations include the cost of the system and
the safety of the users, service technicians and
the public.
Life Cycle Climate Performance (LCCP)
Fluorocarbon replacements for CFC-502 and CFC-12
include HCFC-22, HCFC-22 based blends, HFC-134a,
-404A and -507. Other replacements can also be
used although significant system modifications
may be required to manage properly the fire/explosion
and pressure hazard potential, greatly increasing the
cost.
Life Cycle Climate Performance (Million Kg CO2)
| Configuration |
Refrigerant |
Indirect1 |
Direct2 |
Total |
| Direct Expansion |
R-404A/R-507 |
11.7 |
12.1 |
23.8 |
| Distributed System |
R-404A/R-507 |
10.7 |
0.8 |
11.5 |
| Secondary Loop |
R-404A/R-507 |
13.6 |
0.18 |
13.8 |
| |
Ammonia |
13.6 |
0.0001 |
13.6 |
115 years of energy consumption, 0.65 Kg CO2 per kWh.
215 years of refrigerant emissions.
|
An analysis of four configurations was performed
using LCCP for a typical U.S. supermarket
constructed in 1999 of 5,680 sq. M (60,000 sq. ft.).
The results show:
The distributed systems with HFCs are clearly the right
choice based on LCCP. The HFC-404A or -507 distributed
system had an LCCP less than half the direct expansion
system and was at least 15% better than either secondary
loop system. The secondary loop system with ammonia
has an LCCP similar to that of the secondary loop HFC
system. A 1999 report by A. D. Little estimates that
using ammonia would add costs of $660 million per year in
the U.S. alone due to additional safety equipment, hardware
and increased energy consumption.
HFCs --- The Balanced Solution
When all factors are considered, HFCs offer the best solution
for meeting the requirements of the commercial refrigeration
industry. Commercially available throughout the world,
HFCs are energy efficient, low in toxicity, cost-effective, can
be used safely and are reusable. When used in energy
efficient applications, their excellent LCCP reduces fossil
fuel consumption and with it emissions of carbon dioxide, the
most prevalent greenhouse gas.
Industry Principles
The environmental and cost superiority of HFCs in
commercial refrigeration systems must be complemented
with responsible HFC use. The commercial refrigeration
industry is committed to providing products that provide the
best LCCP that technology, availability and financial
assessment will allow. This will differ across the various
products and applications, and will continuously be evaluated
as technology develops. In addition to significant operating
efficiency improvements, the industry has already taken
significant steps to reduce emissions of refrigerants by
designing leak tight equipment, minimizing system charge
and promoting refrigerant recycling.
The industry actively promotes the following general
principles that should be followed for all refrigerants:
- Use in tight systems that are leak tested and then
frequently monitored after installation to eliminate direct
refrigerant emissions;
- Recovery, recycling and reclaiming of all refrigerants;
- Training of all personnel involved in the refrigerant handling;
- Compliance with standards, that govern proper refrigeration
installation and maintenance of machinery spaces (e.g. ASHRAE
15, ISO 5149);
- Equipment sizing to match the specific need, thereby minimizing
the refrigerant amount; and
- Design and installation and operation to optimize energy
efficiency.
Balanced Solutions for Society... Commercial Refrigeration is
a Perfect Example of The Concept.
Energy Efficiency, Reduced CO2 Emissions, Availability, Affordability.
HFCs --- the RIGHT Choice for Commercial Refrigeration.
The Alliance for Responsible Atmospheric Policy is a leading industry voice
that coordinates industry participation in the development of reasonable
international and U.S. government policies regarding ozone protection and
global climate change.
The Alliance for Responsible Atmospheric Policy
2111 Wilson Blvd., Suite 850 - Arlington, VA 22201
Phone: (703) 243-0344 - Fax: (703) 243-2874
E-mail: info@arap.org
|
|
|
| |
