PENGEMBANGAN LAYOUT CADDY TOOLS LACI 1 UNTUK MENCIPTAKAN KERAPIAN TEMPAT PENYIMPANAN ALAT PADA BENGKEL JPTO FT UNY

Tujuan proyek akhir ini meliputi beberapa hal yaitu 1) Merancang dan membuat tempat penyimpanan kunci-kunci service sepeda motor yang lebih rapi, 2) memperbaiki tempat penyimpanan kunci-kunci service sepeda motor di bengkel JPTO FT UNY agar dapat berfungsi dengan normal kembali, 3)melakukan pengujian perubahan tempat penyimpanan kunci-kunci untuk melakukan tune up sepeda motor guna mengetahui fungsional penggunaan kunci-kunci service sepeda motor di bengkel JPTO FT UNY. Proses pembuatan layout tempat penyimpanan kunci-kunci service ini dilakukan berdasarkan identifikasi kebutuhan seperti pendataan jumlah kunci-kunci service sepeda motor pada cady tools layer satu, mencari ukuran, luasan dan bahan yang akan digunakan. Setelah mendapatkan data-data tersebut maka dibuatlah sebuah desain layout tempat penyimpanan kunci-kunci service sepeda motor pada layer satu sesuai dengan kebutuhan di dalam bengkel sepeda motor. Dalam pembuatan tempat penyimpanan kunci-kunci service tersebut dilakukan beberapa proses seperti pencetakan dudukan tempat penyimpanan kunci-kunci service menggunakan mesin laser cut, lalu dilakukan perakitan semua komponen caddy tools. Langkah terakhir yaitu melakukan pengujian guna mengetahui perbedaan antara tempat penyimpanan kunci-kunci service yang belum mengalami perubahan dan yang sudah mengalami perubahan tersebut. Hasil dari proses-proses ini yaitu caddy tools dapat berfungsi dengan normal kembali, terlihat rapi karena kunci-kunci ytang berada di dalam caddy tools sudah sesuai dengan dudukan yang sudah dilakukan pengembangan

CO\u3csub\u3e2\u3c/sub\u3e-neutral fuels

\u3cp\u3eMimicking the biogeochemical cycle of System Earth, synthetic hydrocarbon fuels are produced from recycled CO\u3csub\u3e2\u3c/sub\u3e and H\u3csub\u3e2\u3c/sub\u3eO powered by renewable energy. Recapturing CO\u3csub\u3e2\u3c/sub\u3e after use closes the carbon cycle, rendering the fuel cycle CO\u3csub\u3e2\u3c/sub\u3e neutral. Non-equilibrium molecular CO\u3csub\u3e2\u3c/sub\u3e vibrations are key to high energy efficiency.\u3c/p\u3

Method for manufacturing a multi-layer stack structure with improved WVTR barrier property

A method and apparatus for manufacturing a multi-layer stack structure (12), the structure (12) comprising in order: a substrate (6a) a barrier layer (14) an adhesive layer (15) a barrier layer (14) a substrate (6b). The method comprises: a) providing two substrates (6a, 6b) in a single treatment space (5), the treatment space (5) comprising at least two electrodes (2, 3) for generating an atmospheric pressure glow discharge plasma in the treatment space(5); b) treating the facing surfaces of the two substrates (6a, 6b) simultaneously in the single treatment space (5); c) laminating the two treated substrates (6a, 6b) with an adhesive layer (15) in between the facing surfaces to obtain the multi-layer stack structure (12)

Device for converting electromagnetic radiation energy into electrical energy and method of manufacturing such a device

Application: WO 2007-EP52089 20070306. Priority: NL 2006-2000033 20060320. AN 2007:1090242 Patent Family Information Patent No. Kind Date Application No. Date WO 2007107452 A1 20070927 WO 2007-EP52089 20070306 Priority Application NL 2006-2000033 A 20060320 Abstract Device (10) for converting electromagnetic radiation energy into elec. energy, comprising at least a photovoltaic element (11) with a radiation-sensitive surface, wherein a covering layer (12) of a material comprising a silicon compd., to which a rare earth element has been added, is present on said radiation-sensitive surface, characterized in that the material of the covering layer comprises a compd. of silicon and nitrogen. Good results were obtained with a compd. such as Sr2Si5N8:Eu

Substrate structure grown by plasma deposition

Substrate structure comprising a substrate (6) and a plasma grown layer (6a). The surface of the resulting substrate structure (7) is characterized by interrelated scaling components. The scaling components comprise a roughness exponent a, a growth exponent ss and a dynamic exponent z, wherein the growth exponent ss has a value of less than 0.2 and the dynamic exponent z has a value of more than 6. Also disclosed is a method to provide such a substrate structure