The performance of XP10, a new refrigerant with a r educed GWP, in a centrifugal chiller designed for H FC-134a with a cooling capacity of 1969.44 kW (560 tons) was measured under full and part load conditions and compared to performance with HFC-134a. Measured chiller energy efficiencies with XP10 were comparable to those wi th HFC134a. They resulted in 0.6% higher energy consumption for XP10 when integrated over a representative p rofile of partial loads as described by AHRI Standard 550/590. Based on the measured chiller performance, XP10 could be considered a near drop-in replacement for HFC-134a in centrifugal chillers. It could replace HFC-134a in existing chillers or enable optimized new chiller designs wi thout extensive equipment and no flammability code modifications. The Total Equivalent Warming Impact (TEWI) of a chiller with XP10 was estimated under representative scenarios and compared to TEWI with HFC-134a. Use of XP10 could significantly reduce chiller global warming impact relative to HFC-134a, when chiller refrigerant losses are unavoidably high or wh en electricity is generated with low GHG emissions. X P10 has the potential to be a more environmentally sustainable future option for medium pressure centrifugal chill ers.
[1]
V. D. Baxter,et al.
Energy and global warming impacts of HFC refrigerants and emerging technologies: TEWI-III
,
1997
.
[2]
Konstantinos Kontomaris,et al.
A Non-Flammable, Reduced GWP, HFC-134a Replacement in Centrifugal Chillers: DR-11
,
2010
.
[3]
James M. Calm,et al.
Comparative efficiencies and implications for greenhouse gas emissions of chiller refrigerants
,
2006
.
[4]
James M. Calm,et al.
Emissions and environmental impacts from air-conditioning and refrigeration systems
,
2002
.