Capacity ratings DE and NE, Capacity ratings LE, Inverter

ENVIRONMENTALLY FRIENDLY TECHNOLOGY

Capacity ratings (DE and NE)

Table 14. Capacity factor (DE and NE)

Chilled water temperature				Cooling water inlet temperature (° C)
Outlet temp.	Inlet temp.	28	29	30	31	32	33
	8.0	0.826	0.803	0.780	0.753	0.716	0.634
5.0	9.0	0.883	0.859	0.834	0.805	0.766	0.678
5.0	10.0	0.922	0.898	0.871	0.841	0.800	0.708
	10.0	0.922	0.898	0.871	0.841	0.800	0.708
	11.0	0.940	0.915	0.888	0.857	0.815	0.721
	12.0	0.957	0.932	0.904	0.873	0.830	0.735
	8.0	0.929	0.904	0.877	0.847	0.806	0.713
	9.0	0.993	0.966	0.938	0.905	0.861	0.762
6.0	10.0	1.038	1.010	0.980	0.946	0.900	0.797
	11.0	1.050	1.029	0.999	0.964	0.917	0.812
	12.0	1.050	1.048	1.017	0.982	0.934	0.827
	8.0	1.032	1.004	0.975	0.941	0.895	0.792
	9.0	1.050	1.050	1.042	1.006	0.957	0.847
7.0	10.0	1.050	1.050	1.050	1.050	1.000	0.885
	11.0	1.050	1.050	1.050	1.050	1.019	0.902
	12.0	1.050	1.050	1.050	1.050	1.038	0.919
	8.0	1.050	1.046	1.016	0.980	0.933	0.825
	9.0	1.050	1.050	1.050	1.048	0.997	0.883
8.0	10.0	1.050	1.050	1.050	1.050	1.042	0.922

SUPER ABSORPTION

Capacity ratings (LE)

Table 15. Capacity factor (LE)

				CHW ∆ T = 4 deg						CHW ∆ T = 5 deg
COW inlet	CHW outlet			Hot water outlet (° C)						Hot water outlet (° C)
COW inlet	CHW outlet	80.0	81.0	82.0	83.0	84.0	85.0	80.0	81.0	82.0	83.0	84.0	85.0
		80.0	81.0	82.0	83.0	84.0	85.0	80.0	81.0	82.0	83.0	84.0	85.0
	6.0	1.046	1.092	1.137	1.183	1.228	1.272	1.066	1.112	1.158	1.204	1.249	1.294
28.0	7.0	1.111	1.156	1.202	1.247	1.291	1.300	1.132	1.178	1.223	1.268	1.300	1.300
	8.0	1.176	1.221	1.266	1.300	1.300	1.300	1.198	1.243	1.288	1.300	1.300	1.300
	6.0	0.934	0.980	1.027	1.073	1.119	1.164	0.953	1.000	1.047	1.093	1.139	1.185
29.0	7.0	0.999	1.046	1.092	1.137	1.182	1.227	1.019	1.066	1.112	1.158	1.204	1.249
	8.0	1.065	1.111	1.156	1.201	1.246	1.291	1.085	1.132	1.177	1.223	1.268	1.300
	6.0	0.820	0.868	0.915	0.962	1.008	1.055	0.837	0.886	0.934	0.981	1.028	1.074
30.0	7.0	0.886	0.934	0.980	1.027	1.073	1.118	0.905	0.953	1.000	1.047	1.093	1.139
	8.0	0.953	0.999	1.046	1.091	1.137	1.182	0.972	1.019	1.066	1.112	1.158	1.203
	6.0	0.703	0.753	0.802	0.850	0.897	0.944	0.719	0.769	0.819	0.867	0.915	0.963
31.0	7.0	0.771	0.820	0.868	0.915	0.962	1.008	0.788	0.837	0.886	0.934	0.981	1.028
	8.0	0.838	0.886	0.934	0.980	1.027	1.073	0.856	0.905	0.953	1.000	1.047	1.093
	6.0	0.583	0.635	0.685	0.735	0.784	0.832	0.597	0.649	0.701	0.751	0.801	0.849
32.0	7.0	0.653	0.703	0.753	0.802	0.850	0.897	0.668	0.719	0.770	0.819	0.867	0.915
	8.0	0.722	0.771	0.820	0.868	0.915	0.962	0.738	0.788	0.838	0.886	0.934	0.981

11.0	1.050	1.050	1.050	1.050	1.050	0.940
12.0	1.050	1.050	1.050	1.050	1.050	0.957

Note :

1)Cooling water temperature difference : 5.5° C constant

2)The table is used only for the purpose of presuming the capacity factor.

3)In DE model, the proper flow rate of hot water is required in case of heating mode. It requires proper consumption of hot water for required cooling capacity.

4)Please contact your SANYO representative, if your request is not indicated in the table.

Graph 11. Cooling capacity and steam pressure (steam-fired chillers)

				CHW ∆ T = 6 deg
COW inlet	CHW outlet			Hot water outlet (° C)
COW inlet	CHW outlet	80.0	81.0	82.0	83.0	84.0	85.0
		80.0	81.0	82.0	83.0	84.0	85.0
	6.0	1.084	1.131	1.177	1.223	1.268	1.300
28.0	7.0	1.151	1.197	1.243	1.288	1.300	1.300
	8.0	1.217	1.263	1.300	1.300	1.300	1.300
	6.0	0.970	1.017	1.065	1.111	1.158	1.204
29.0	7.0	1.037	1.084	1.131	1.177	1.223	1.268
	8.0	1.104	1.151	1.197	1.242	1.288	1.300
	6.0	0.853	0.902	0.950	0.998	1.046	1.092
30.0	7.0	0.921	0.970	1.017	1.064	1.111	1.158
	8.0	0.989	1.037	1.084	1.131	1.177	1.223
	6.0	0.733	0.784	0.834	0.883	0.932	0.980
31.0	7.0	0.803	0.853	0.902	0.950	0.998	1.045
	8.0	0.872	0.921	0.970	1.017	1.064	1.111
	6.0	***	0.661	0.714	0.765	0.815	0.865
32.0	7.0	***
32.0	7.0	0.680	0.733	0.784	0.834	0.883	0.932
	8.0	0.752	0.803	0.853	0.902	0.950	0.998

Note :

1) Cooling water temperrature difference : 6° C constant

Hot water temperature difference

: 5° C constant

2)The table is used only for the purpose of presumpting the capacity factor.

3)It requires proper consumption of hot water for required cooling capacity.

4)Please contact your SANYO representative, if your request is not indicated in the table.

5)” *** ” mark means out of operation condition.

	100
	90
capacity(%)	80
	80
Cooling	70
	70
	60

Supply steam pressure(Kg / cm2G)

Selection condition
1)	Chilled water	12° C	7° C

2)	Cooling water	32° C	37.5° C

Graph 12.

	110
	100
	90
	80
	70
(%)	60
COP	50
	50
	40
	30

Partial load characteristics

w/	inverter
		inverter
	w/o

100

Load (%)

Adoption of the controlling circulation amount of the solution

In order to have a stable and effective operation under the wide range of hot water temperature given, absorbent pump driven by an inverter con- trols the optimal operation. This control is that hot water is effectively utilized to regenerate the refrigerant instead of heating up the solution not attributed to the cooling capacity at the partial load.

Features;

1.To shorten the start-up period in time.

2.To prevent the excessive heat rejection to the cooling water system.

Even if the heating amount of heat source becomes less, the unit can operate without fail by means of the procedure that the input is almost rejected to cooling water.

3.To improve COP at the partial load due to less input.

Sanyo Capacity ratings DE and NE, Capacity ratings LE, inverter, Super Absorption

Models: DE

Capacity ratings (DE and NE)

Capacity ratings (LE)

inverter