Comparative Assessment of Sodium and LED Greenhouse Irradiators Main Characteristics

The authors showed that traditional sodium greenhouse irradiators are being replaced by more efficient LED ones. (Research purpose) To conduct a comparative assessment of the main characteristics of sodium and LED greenhouse irradiators with an equal photosynthetic photon flux. (Materials and methods) The authors collected a database of 79 sodium irradiators (34 irradiators with electronic ballasts and 45 – with electromagnetic) and 118 – LED. A comparative assessment was carried out in two stages. At the first stage mathematical models of the power, mass, area and cost of irradiation facilities dependence on the photosynthetic photon flux generated by them were obtained. At the second stage the system of equations of sodium and LED greenhouse irradiators for each characteristic were solved. (Results and discussion) The consumed active power of LED irradiators is on average 33 percent less compared to sodium. The area of LED illuminators is 2.5 times larger than sodium irradiators with electronic ballast and 44 percent more than sodium irradiators with electromagnetic ballast. The LED irradiators mass is 3.5 times more than sodium with electronic ballast and 20 percent more than sodium with electromagnetic ballast. The cost of LED illuminators is 3.5 and 4.3 times higher. (Conclusions) LED irradiators are more energy efficient compared to sodium ones. However, due to the high cost, their implementation requires a feasibility study, including additional evaluation criteria: service life, operating costs, electricity price and others.

1. Prikupec L.B. Svetodiody v teplichnom osveshchenii: vozmozhnosti i real’nost’ [LEDs in greenhouse lighting: opportunities and reality]. Svetotekhnika. Special’nyy vypusk. 2019. 8-12 (In Russian).

2. Mishanov A.P., Markova A.E. Vliyanie razlichnyh tipov obluchatelej na koefficient energoekologichnosti v svetokul’ture salata [The influence of various types of irradiators on the coefficient of energy-ecological compatibility in light culture of lettuce]. Tekhnologii i tekhnicheskie sredstva mekhanizirovannogo proizvodstva produkcii rastenievodstva i zhivotnovodstva. 2017. 92. 25-31 (In Russian).

3. Rakut’ko S.A., Markova A.E., Sudachenko V.N., Kolyanova T.V. Opredelenie effektivnosti svetodiodnyh istochnikov oblucheniya pri vyrashchivanii rassady tomata i ogurca [Determination of the effectiveness of LED radiation sources for growing tomato and cucumber seedlings]. Tekhnologii i tekhnicheskie sredstva mekhanizirovannogo proizvodstva produkcii rastenievodstva i zhivotnovodstva. 2013. 84. 82-89 (In Russian).

4. Smirnov A.A., Proshkin Yu.A., Sokolov A.V. Optimiza tsiya spektral’nogo sostava i energeticheskoj effektivnosti fitoobluchateley [Optimization of the spectral composition and energy efficiency of phytoradiators]. Elektrotekhnologii i elektrooborudovanie v APK. 2019. 1(34). 53-60 (In Russian).

5. Molchan O., Obuhovskaya L., Trofimov Yu., Pugachevskiy A. LED-osveshchenie v proizvodstve produktsii rastenievodstva zakrytogo grunta [LED lighting in the production of indoor crop production]. Nauka i innovatsii. 2018. 5(183). 38-43 (In Russian).

6. Pardo G.P., Aguilar C.H., Martínez F.R., Canseco M.M. Effects of light emitting diode high intensity on growth of lettuce (Lactuca sativa L.) and broccoli (Brassica oleracea L.) seedlings. Annual Research & Review in Biology. 2014. 19. 2983-2994 (In English).

7. Fan X.X., Xu Z.G., Liu X.Y., Tang C.M., Wang L.W., Han X.L. Effects of light intensity on the growth and leaf development of young tomato plants grown under a combination of red and blue light. Scientia Horticulturae. 2013.153. 50-55 (In English).

8. Lin K.H., Huang M.Y., Huang W.D., Hsu M.H., Yang Z.W., Yang C.M. The effects of red, blue, and white light-emitting diodes on the growth, development, and edible quality of hydroponically grown lettuce (Lactuca sativa L. var. capitata). Scientia Horticulturae, 2013. 150. 86-91 (In English).

9. Schwend T., Prucker D., Peisl S., et al. The rosmarinic acid content of basil and borage correlates with the ratio of red and far-red light. European Journal of Horticultural Science. 2016. 81. 5. 243–247 (In English).

10. Chen X.-L., Xue X.-Z., Guo W.-Z., et al. Growth and nutritional properties of lettuce affected by mixed irradiation of white and supplemental light provided by light-emitting diode. Scientia Horticulturae. 2016. 200. 111–118 (In English).