. . . "dezintegrace; energetick\u00E1 n\u00E1ro\u010Dnost; macera\u010Dn\u00ED ml\u00FDn; p\u0161eni\u010Dn\u00E1 sl\u00E1ma; v\u00FDt\u011B\u017Enost bioplynu"@en . . "The impact of mechanical disintegration of wheat straw on biogas yield"@en . "http://chps.fsid.cvut.cz/pt/2013/pdf/3504.pdf?_=1369598033" . "Vliv mechanick\u00E9 dezintegrace p\u0161eni\u010Dn\u00E9 sl\u00E1my na v\u00FDt\u011B\u017Enost bioplynu"@cs . "Vliv mechanick\u00E9 dezintegrace p\u0161eni\u010Dn\u00E9 sl\u00E1my na v\u00FDt\u011B\u017Enost bioplynu"@cs . . "V sou\u010Dasn\u00E9 dob\u011B se k mechanick\u00E9 dezintegraci biomasy v technologi\u00EDch v\u00FDroby biopaliv vyu\u017E\u00EDvaj\u00ED za\u0159\u00EDzen\u00ED, kter\u00E1 pracuj\u00ED na principu p\u016Fsoben\u00ED smykov\u00FDch (koloidn\u00ED ml\u00FDny, extrud\u00E9ry) \u010Di st\u0159ihov\u00FDch sil (no\u017Eov\u00E9, \u00FAderov\u00E9 ml\u00FDny). Jejich nev\u00FDhodou je ale jak jejich omezen\u00E9 pou\u017Eit\u00ED dan\u00E9 vlhkost\u00ED biomasy, tak p\u0159edev\u0161\u00EDm vysok\u00E1 energetick\u00E1 n\u00E1ro\u010Dnost dezintegrace. Ve spolupr\u00E1ci s firmou Prokop Invest byl proto vyvinut zcela unik\u00E1tn\u00ED univers\u00E1ln\u00ED ml\u00FDn, kter\u00FD je prim\u00E1rn\u011B ur\u010Den k drcen\u00ED biomasy s lignocelul\u00F3zov\u00FDm z\u00E1kladem. C\u00EDlem nov\u00E9ho technick\u00E9ho \u0159e\u0161en\u00ED ml\u00FDnu bylo prim\u00E1rn\u011B sn\u00ED\u017Eit energetickou n\u00E1ro\u010Dnosti dezintegrace ve vztahu k dosa\u017Een\u00ED po\u017Eadovan\u00E9 velikosti \u010D\u00E1stic, zaru\u010Dit zv\u00FD\u0161en\u00ED biodegradability biomasy a t\u00EDm i v\u00FDt\u011B\u017Enosti bioplynu a u\u010Dinit tak mechanickou dezintegraci biomasy finan\u010Dn\u011B nen\u00E1ro\u010Dnou technologi\u00ED p\u0159ed\u00FApravy. Testovac\u00ED experimenty macera\u010Dn\u00EDho ml\u00FDnu prok\u00E1zaly n\u00E1sleduj\u00EDc\u00ED v\u00FDsledky. V\u00FDstupn\u00ED velikost \u010D\u00E1stic sl\u00E1my p\u0159i jednom pr\u016Fchodu ml\u00FDnem byla men\u0161\u00ED ne\u017E 10 mm se z\u0159eteln\u00FDm naru\u0161en\u00EDm struktury. Energetick\u00E1 n\u00E1ro\u010Dnost dezintegrace st\u00E9bel sl\u00E1my z p\u016Fvodn\u00ED d\u00E9lky 100-200 mm na zm\u00EDn\u011Bn\u00FDch 10 mm byla 50 kWh.t-1 TS. D\u00EDky semlet\u00ED sl\u00E1my byla zv\u00FD\u0161ena produkce bioplynu z 491 Nm3.t-1 TS na 605 Nm3.t-1 TS, tj. o 23 %, co\u017E p\u0159i p\u0159epo\u010Dtu na zisk elektrick\u00E9 energie \u010Din\u00ED 220 kWhE.t-1 TS. Na z\u00E1klad\u011B t\u011Bchto v\u00FDsledk\u016F je jasn\u00E9, \u017Ee mechanick\u00E1 dezintegrace biomasy macera\u010Dn\u00EDm ml\u00FDnem m\u00E1 velk\u00FD potenci\u00E1l st\u00E1t se efektivn\u00ED sou\u010D\u00E1st\u00ED technologi\u00ED p\u0159ed\u00FAprav surovin a to nejen v technologi\u00EDch v\u00FDroby bioplynu."@cs . "S, Z(MSM6840770035)" . . "Vliv mechanick\u00E9 dezintegrace p\u0161eni\u010Dn\u00E9 sl\u00E1my na v\u00FDt\u011B\u017Enost bioplynu" . "21220" . . "2013-06-13+02:00"^^ . . "2"^^ . . "Kr\u00E1tk\u00FD, Luk\u00E1\u0161" . . "2"^^ . "RIV/68407700:21220/13:00205671!RIV14-MSM-21220___" . . . "The impact of mechanical disintegration of wheat straw on biogas yield"@en . . . "11"^^ . "114504" . "[32AF2B54C5A8]" . "Vliv mechanick\u00E9 dezintegrace p\u0161eni\u010Dn\u00E9 sl\u00E1my na v\u00FDt\u011B\u017Enost bioplynu" . . "978-80-01-05285-3" . . "\u010Cesk\u00E9 vysok\u00E9 u\u010Den\u00ED technick\u00E9 v Praze. Fakulta strojn\u00ED" . "RIV/68407700:21220/13:00205671" . "V sou\u010Dasn\u00E9 dob\u011B se k mechanick\u00E9 dezintegraci biomasy v technologi\u00EDch v\u00FDroby biopaliv vyu\u017E\u00EDvaj\u00ED za\u0159\u00EDzen\u00ED, kter\u00E1 pracuj\u00ED na principu p\u016Fsoben\u00ED smykov\u00FDch (koloidn\u00ED ml\u00FDny, extrud\u00E9ry) \u010Di st\u0159ihov\u00FDch sil (no\u017Eov\u00E9, \u00FAderov\u00E9 ml\u00FDny). Jejich nev\u00FDhodou je ale jak jejich omezen\u00E9 pou\u017Eit\u00ED dan\u00E9 vlhkost\u00ED biomasy, tak p\u0159edev\u0161\u00EDm vysok\u00E1 energetick\u00E1 n\u00E1ro\u010Dnost dezintegrace. Ve spolupr\u00E1ci s firmou Prokop Invest byl proto vyvinut zcela unik\u00E1tn\u00ED univers\u00E1ln\u00ED ml\u00FDn, kter\u00FD je prim\u00E1rn\u011B ur\u010Den k drcen\u00ED biomasy s lignocelul\u00F3zov\u00FDm z\u00E1kladem. C\u00EDlem nov\u00E9ho technick\u00E9ho \u0159e\u0161en\u00ED ml\u00FDnu bylo prim\u00E1rn\u011B sn\u00ED\u017Eit energetickou n\u00E1ro\u010Dnosti dezintegrace ve vztahu k dosa\u017Een\u00ED po\u017Eadovan\u00E9 velikosti \u010D\u00E1stic, zaru\u010Dit zv\u00FD\u0161en\u00ED biodegradability biomasy a t\u00EDm i v\u00FDt\u011B\u017Enosti bioplynu a u\u010Dinit tak mechanickou dezintegraci biomasy finan\u010Dn\u011B nen\u00E1ro\u010Dnou technologi\u00ED p\u0159ed\u00FApravy. Testovac\u00ED experimenty macera\u010Dn\u00EDho ml\u00FDnu prok\u00E1zaly n\u00E1sleduj\u00EDc\u00ED v\u00FDsledky. V\u00FDstupn\u00ED velikost \u010D\u00E1stic sl\u00E1my p\u0159i jednom pr\u016Fchodu ml\u00FDnem byla men\u0161\u00ED ne\u017E 10 mm se z\u0159eteln\u00FDm naru\u0161en\u00EDm struktury. Energetick\u00E1 n\u00E1ro\u010Dnost dezintegrace st\u00E9bel sl\u00E1my z p\u016Fvodn\u00ED d\u00E9lky 100-200 mm na zm\u00EDn\u011Bn\u00FDch 10 mm byla 50 kWh.t-1 TS. D\u00EDky semlet\u00ED sl\u00E1my byla zv\u00FD\u0161ena produkce bioplynu z 491 Nm3.t-1 TS na 605 Nm3.t-1 TS, tj. o 23 %, co\u017E p\u0159i p\u0159epo\u010Dtu na zisk elektrick\u00E9 energie \u010Din\u00ED 220 kWhE.t-1 TS. Na z\u00E1klad\u011B t\u011Bchto v\u00FDsledk\u016F je jasn\u00E9, \u017Ee mechanick\u00E1 dezintegrace biomasy macera\u010Dn\u00EDm ml\u00FDnem m\u00E1 velk\u00FD potenci\u00E1l st\u00E1t se efektivn\u00ED sou\u010D\u00E1st\u00ED technologi\u00ED p\u0159ed\u00FAprav surovin a to nejen v technologi\u00EDch v\u00FDroby bioplynu." . "Procesn\u00ED technika 2013" . . "The new type of disintegrator was developed in order to decrease energy requirement related to final particle sizes, to increase biogas yield and biodegradability and to perform mechanical disintegration as a cost effective preliminary operation. The test experiments of developed grinder finally confirmed these facts. The reached final particle size of wheat straw particles was lower than 10 mm with a smooth surface and with significant ruptures in microstructure. The energy requirement for the size reduction of untreated straw to the size mentioned above was 50 kWh per ton TS (total solids). The increase in biogas yield was by 23 % and in related net electrical energy profit (by CHP generation respecting electrical efficiency 40 %) by 220 kWhE per ton TS. Considering the results, the grinder has a high potential to be a practical mechanical technique, an economical and effective pretreatment of lignocellulosic biomass, especially for herbaceous crops such as straw."@en . . "Praha" . "Praha" . . . "Jirout, Tom\u00E1\u0161" . .