Water removal from biodiesel/diesel blends and jet fuel using natural resin as dehydration agent

被引：11

作者：

Tsanaktsidis, Constantinos G. ^{[1
]}

Favvas, Evangelos P. ^{[2
,3
]}

Tzilantonis, George T. ^{[1
]}

Christidis, Stavros G. ^{[1
]}

Katsidi, Elissavet C. ^{[1
]}

Scaltsoyiannes, Apostolos V. ^{[4
]}

机构：

[1] Technol Educ Inst Western Macedonia, Dept Pollut Control & Technol, Lab Qualitat Fuel Control, Kila 50100, Kozani, Greece

[2] NCSR Demokritos, Inst Nanosci & Nanotechnol, Membranes & Mat Environm Separat Lab, Aghia Paraskevi 15341, Attica, Greece

[3] Eastern Macedonia & Thrace Inst Technol, Dept Petr & Mech Engn, Hephaestus Lab, St Lucas 65404, Cavala, Greece

[4] Aristotle Univ Thessaloniki, Dept Forestry & Nat Environm, Lab Forest Genet & Plant Breeding, Thessaloniki 54124, Greece

来源：

CANADIAN JOURNAL OF CHEMICAL ENGINEERING | 2015年 / 93卷 / 10期

关键词：

resin; water removal; biodiesel; diesel blend; jet fuel; DIESEL FUEL; PHYSICOCHEMICAL PROPERTIES; RICE HUSKS; POLYMER;

D O I：

10.1002/cjce.22279

中图分类号：

TQ [化学工业];

学科分类号：

0817 ;

摘要：

Water removal from both biodiesel and diesel/biodiesel blends was studied using a natural removable additive, natural resin. Specifically, two different samples of biodiesel/diesel blends and one of JP8 fuel were studied before and after the blending process with the natural additive. As well as moisture concentration, the properties of density, kinematic viscosity, conductivity, flash point, and heat of combustion were also investigated. Using the proposed method of water removal improves the physicochemical properties of biodiesel/diesel fuel blends, increases the heat of combustion up to 361J/g, reduces the moisture by approximate to 66%, and reduces the conductivity down to 39.5%. In the case of JP8 fuel decreasing moisture content increases the heat of combustion by 187J/g, decreases the conductivity by 60%, and establishes the moisture level within accepted values, from 68 to lower than 50mg/kg.

引用

页码：1812 / 1818

页数：7

共 35 条

[1]

[Anonymous], 2009, D262409 ASTM, DOI [10.1520/D2624-09, DOI 10.1520/D2624-09]

[2]

[Anonymous], 2014, D227606 ASTM INT, DOI [10.1520/D2276-06, DOI 10.1520/D2276-06]

[3]

[Anonymous], 2003, D675103A ASTM INT, DOI [10.1520/D6751-03, DOI 10.1520/D6751-03]

[4]

[Anonymous], 2013, D9313 ASTM, DOI [10.1520/d0093, DOI 10.1520/D0093]

[5]

[Anonymous], 2012, D129812B ASTM, DOI [10.1520/D1298-12B, DOI 10.1520/D1298-12B]

[6]

[Anonymous], 2000, D174492 ASTM INT, DOI [10.1520/D1744, DOI 10.1520/D1744]

[7]

[Anonymous], 2011, REN21 SECR DTSCH GES, P17

[8]

ASTM, 2012, D44512 ASTM INT, DOI DOI 10.1520/D0445-12

[9]

ASTM, 2014, ASTM D6751-12:2014, DOI [10.1520/D6751-12, DOI 10.1520/D6751-12]

[10]

ASTM, 2013, D480913 ASTM, DOI [10.1520/D4809-13, DOI 10.1520/D4809-13]

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