나) Sample 2.
물 : 아세톤 : MIBK = 15 : 15 : 30
RT
Area
부피(1차-3차)㎕
Acetone
1.245
12037926
1차
1.62911
2차
1.41867
3차
1.42526
MIBK
3.373
27977997
1차
5.06129
2차
4.99423
3차
4.93190
Water
0
0
1차
x
2차
x
3차
x
upper (extraction)
(검량선 1,2,3차식을 이용해 각각의 부피를 구한다.)
(sample2
[Refrigeration Cycle]
1. 실험목적
가. 가시적으로 판별하기 힘든 평형의 원리를 온도, 압력 등의 조작변수와 연동하여 상평
형에 대해 이해한다.
나. 실험적으로 얻어낸 데이터와 문헌데이터 값을 비교하여 기-액 평형 및 증류에 대한
기초 지식을 습득한다.
다. Liquid-Liquid System의 액-액
extracted from biomass by using solvent. These PHB extracted solvent will experience washing and drying process. After that, PHB can be precipitated as white powder. Most commonly used solvent is Chloroform. After end of this extraction process, the solvent should be separated from water or other impurities and recycled to extraction system because most of solvent is expensive.
2. 3. Compou
water solution.
How we get nearly pure acetone?
Factors to be considered:
Feasibility
Product value
Cost
Product quality
selectivity
Possible Process:
Distillation
Extraction
Extractive distillation
Extraction(1)+Distillation
Extraction(2)+Distillation
Mainly involved in separation process
-Extraction (추출) : liquid – liquid
Driving force : distribution coeff.
-Distillat
WATER
39392.7394
0.77417305
ETHANOL
29260.7275
0.22487379
CO2
118.481529
0.00095315
표 8. VAP1 stream
2) Separation Model
foolish model 이후 순수한 ethanol을 얻기 위한 separtion공정이다.
① D1 unit (distillation)
원할한 azeotropic distillation을 하기 위하여 별도의 Distillation 유닛을 달아 separartion model로 들어오는 feed stream을 water
like hydrogen fueled car. However, although our interest in fuel cell is increasing, the stage of the development is still slight. To develop fuel cell technique as the core industry, we have to construct effective infrastructures from extraction to supply. So, in this project, our team has searched the fuel cell technique dividing into four parts ; extraction, storing, type, merits & demerits.
D.I-WATER
INCI NAME : FURIFIED WATER
화학적 분류 : inoranic (무기물의)
분자식 : H2O
정의 :
나트륨, 칼슘, 철, 구리와 같은 양이온과 염소 브롬과 같은 음이온들, 즉 이온들이 결여되어 있는 물.
성상 및 특성 :
무색, 투명한 액체이며, pH는 7.0이다.
초순수는 이론상으로 18.31MΩ㎝까지 최고 저항력을 가질 수
위 그림은 Oil Sands에 Bacteria를 넣어줌으로써 Bacteria가 oil과 water의 interface에서 oil을 degradation 할 수 있도록 해주는 것이다. Bacteria는 oil과 같은 hydrocarbon을 degrade시켜서 methane gas를 배출한다. Oil Sands가 전부 degradation되어 methane gas로 변하고 나면 우리는 단순히 이 천연가스를 뽑아내기만 하면 될 것이다. 이
water, those free complex carbohydrates turned into fermentable sources through pre-treatment process - saccharification. Then, it can be changed ethanol form through fermentation by yeast or genetically engineered E.coli and we can produce biofuel from that ethanol. Now, the way of decreasing process and cost are studied from a few researchers. So we will show the whole process of the production
1. Introduction
1) Definition of preservation and food-spoilage micro-organisms
Food preservation is the process of treating and handling food to stop or greatly slow down spoilage (loss of quality, edibility or nutritive value) caused or accelerated by micro-organisms. Some methods, however, use benign bacteria, yeasts or fungi to add specific qualities and to preserve food (e.g., cheese, wine