Bat­tery Sto­rage (BESS)

In an incre­asing­ly decar­bo­nis­ed world, bat­tery ener­gy sto­rage sys­tems (BESS) are beco­ming key to a sta­ble, fle­xi­ble, and sus­tainable ener­gy sys­tem. Through the che­mi­cal sto­rage of elec­tri­ci­ty, the­se faci­li­ties offer high ener­gy den­si­ty and fle­xi­bi­li­ty, enab­ling them to respond quick­ly and pre­cis­e­ly to sys­tem needs.

Ener­gy sto­rage plants are indis­pensable for a sus­tainable future. They make it pos­si­ble to bridge the natu­ral vola­ti­li­ty of rene­wa­ble ener­gies and to respond fle­xi­bly to ener­gy demand and grid requi­re­ments. As fle­xi­ble assets, they miti­ga­te the dis­ad­van­ta­ges of uneven gene­ra­ti­on from wind and solar farms, thus making a cru­cial con­tri­bu­ti­on to grid sta­bi­li­ty.

What Added Value do Bat­tery Ener­gy Sto­rage Sys­tems offer?

Bat­tery ener­gy sto­rage sys­tems unlock new reve­nue streams through their ver­sa­ti­le appli­ca­ti­ons and make a signi­fi­cant con­tri­bu­ti­on to grid secu­ri­ty. Each tech­ni­cal appli­ca­ti­on ful­fils a mar­ket need that crea­tes a reve­nue stream for the ope­ra­tor – the most important mar­kets for ener­gy sto­rage sys­tem

  • Arbitrage/Trading Mar­ket

Through the tar­ge­ted absorp­ti­on of ener­gy during sur­plus and the feed-in during high demand, tra­ding enables reve­nue based on the pri­ce vola­ti­li­ty of ener­gy.

  • Grid Ser­vices

The­se include func­tions for sta­bi­li­sing the elec­tri­ci­ty grid, such as the pro­vi­si­on of reac­ti­ve power, con­trol reser­ve, and peak shaving.

  • Capa­ci­ty Mar­ket

Bat­tery ener­gy sto­rage sys­tems pro­vi­de ener­gy reser­ves to the grid and help to ensu­re secu­ri­ty of sup­p­ly.

Our Ser­vices

With exten­si­ve pro­ject expe­ri­ence, DILICIENCY sup­ports deve­lo­pers in the plan­ning and pre-engi­nee­ring of bat­tery sto­rage sys­tems. Our designs are tho­rough­ly con­side­red, detail­ed, and imple­men­ta­ble for sub­se­quent exe­cu­ti­on pha­ses. Even in the ear­ly pre-plan­ning pha­se, we take into account cru­cial tech­ni­cal and eco­no­mic fac­tors

  • The opti­mal C-rate of the sys­tem for the respec­ti­ve appli­ca­ti­on (e.g., 1H, 2H, 4H sys­tems)
  • The choice of the appro­pria­te inver­ter topo­lo­gy (string or cen­tral inver­ters)
  • Effi­ci­ent land use through test­ing of various con­tai­ner pla­ce­ments
  • The cor­rect dimen­sio­ning and con­fi­gu­ra­ti­on of medi­um vol­ta­ge
  • Cabling of DC, AC, com­mu­ni­ca­ti­on, and con­trol cables
  • Design of the trans­fer sta­ti­on at medi­um and high vol­ta­ge levels
  • Capa­ci­ty appli­ca­ti­ons with grid ope­ra­tors and advice throug­hout the grid con­nec­tion pro­cess

Plan.
Power.
Pro­sper.

Working in part­ner­ship

We advi­se you and offer cus­to­mi­zed ser­vices for your pro­ject.
Make an appoint­ment via our online por­tal and let us dis­cuss the details of your pro­ject.

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