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Energies 2022, 15, 6331 preseTnhtedmionnFthiglyurtehser1m3 alnedne1r4g, ireessopfecthtievesylys.teTmheanthdetrhmeatlhenrmeraglydpermoadnudceodf tbhye dperensenr,teCdOiNn DFi,gius rtehse 1h3igahnedst1i4n, trheespfeircsttivmeloyn. tThhdeutehetormthael heneaetrgdyempraonduocef dthbeyu idtevnasreier,sCbOetNwDee,nis1t0h.2eahnigdh1e5s.t5iMn tWhehftihrsrtoumgohnotuhtdthueytoeatrh.eInhegaetndereaml,atnhde sotfeathmecu t i e t mv a r r i u e n s s b a e t t w a e h e i n g h 1 e 0 r . 2 l o a a n d d i 1 n 5 . w 5 i M n t We r h w t h i t r h o u r e g s h p o e u c t t t t h o e t h y e e a s r u . m I n m g e e r n ; e n r e a v l , e t r h t e h e s l t e e s a s m , t h c 22 of 33 e t e n m c e s r u b n e s t w a t e e a n h t i h g h e s e e r t l wo a o d p i n e r wi o i d n s t e a r r e w n i t o h t r s e i s g p n e i f c i t c a t o n t t h s e i n s c u e m t h m e e m r ; e n a e n v e e n r t e h r e g l y e s p s , r o t h tehnecefisrsbtethwreenmtohnesthestwofothperyioeadrsiasroennlyotlessigsnthifaicna2n%t shinigcehetrhethmaneatnheeonneregiynpthroe dmthifoefenrfetirhnscste(stJhbuerntewe–emeAnuothngetushsestt)wo. fTo thpheerieoyfdeosararer,eisfnrotnmsliygtnhliefiscpsaontithnsatinocfe2v%thiehwmigeohafnehreentaehrtaggnyeptnhreoerdauotcnieoedninintthhee imn tohnetfihrst(tJhurneem–Aonutghsuosft)th. Te yheareifsoornel,yflreossmthtahne2p%ohinigthoerf tvhiaenwthoefohneaint tghenseurmamtioern in the the winter and summer periods are similar despite a different type of heat dema months (June–August). Therefore, from the point of view of heat generation in the system, uthserw. inter and summer periods are similar despite a different type of heat dema the winter and summer periods are similar despite a different type of heat demand of user. the user. 16 16 14 14 12 12 10 10 8 8 6 6 4 4 2 2 0 01 2 3 4 5 6 7 8 9 10 11 12 Time [months] 1 2 3 4 5 6 7 8 9 10 11 12 Time [months] BOIL COND AHX ACH,GEN ACH,EVA TK3 BOIL COND AHX ACH,GEN ACH,EVA TK3 Figure 13. Main thermal energies of the system on monthly basis. Figure 13. Main thermal energies of the system on monthly basis. Figure 13. Main thermal energies of the system on monthly basis. 12 12 10 10 8 8 6 6 4 4 2 2 0 01 2 3 4 5 6 7 8 9 10 11 12 Time [months] 1 2 3 4 5 6 7 8 9 10 11 12 Time [months] HEAT,USER COOL,USER DHW HEAT,USER COOL,USER DHW Figure 14. Monthly heating, cooling, and DHW demand. Figure 14. Monthly heating, cooling, and DHW demand. FiguTrhee1t4h.eMrmoanltehnlyerhgeyadtinssgip, actoionlinogf ,thaendauDxiHliaWrydhemataenxdch.anger, AHX, in each month is always above zero, and this means that the system is not able to effectively partialize the The thermal energy dissipation of the auxiliary heat exchanger, AHX, in eac heat produced when needed. Such a condition is due to the technological/thermodynamic is alwTahyesthaberomvealzenroe,rgaynditshsispamtieoanos fththaet athuexislyiasrtyemheiast neoxct haabnlegetor, eAffHecXt,ivineleyapc limits of the steam cycle adopted, characterized by a relatively low pressure/temperature tihs ealwhayeastabopvreodzeurcoe,dandwthiesnmeanneesdthedat. theSuscyhstema is ncont daibtlieonto efisfectidvueely p operation, as well as efficiency. Unfortunately, it is not possible to reduce the load of the due the heat produced when needed. Such a condition is steam cycle below a certain limit imposed by the turbine operational range. The ratio of the thermal energy dissipated by the AHX with respect to the one rejected by the condenser, COND, oscillates between 3% in the 1st month and 71% in the 10th one. The peaks of t y y d ds s n n h h TherTmhearlmenael regnyer[gMyW[Mh]Wh] TherTmhearlmenael regnyer[gMyW[Mh]Wh]PDF Image | Hybrid Polygeneration System Based on Biomass Wind and Solar Energy
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