Static spillover effects in the second stage (in the epidemic). by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

Analysis of TO dynamics (post epidemic). by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

Static spillover effects in stage 3 (post epidemic). by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

Dynamics of pairwise net spillovers between sectors in the first stage (pre-epidemic). by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

Changes in total spillage during the first stage (pre-epidemic). by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

Changes in total spillage during the third stage (post epidemic). by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

Dynamics of pairwise net spillovers between sectors in the second stage (in- epidemic). by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

Sample stage division. by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

First. by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

Static spillovers in the first stage (pre-epidemic). by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

Changes in total spillage during the second stage (in-epidemic). by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

Dynamics of net spillage in the second stage (in-epidemic). by Cuicui Liu (1496260)

Subjects: “…phenomenon intensified significantly…”

A schematic view of ACS. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Assumed conditions. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Shows the amount of emission reductions. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Comparison COP of our study with Florides et al. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Effect of generator temperature on COP. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Emission factors. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Magnitude of emission reduction. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”

Assumed conditions. by Mohammed Qasim Shaheen (21417079)

“…The results show a COP of 0.79 with a cooling capacity of 5 kW at generator, condenser, evaporator, and absorber temperatures of (90, 40, 10, and 35), respectively. The COP increases as the evaporator temperature increases, and it decreases as the condenser and absorber temperature increases. …”