Salt production from coal-mine brine in NF - evaporation - crystallization system

被引：15

作者：

Turek, Marian ^{[1
]}

Dydo, Piotr ^{[1
]}

Klimek, Romuald ^{[2
]}

机构：

[1] Silesian Tech Univ, Fac Chem, PL-44100 Gliwice, Poland

[2] Debiensko Desalinat Plant, PL-44230 Czerwionka Leszczyny, Poland

来源：

DESALINATION | 2008年 / 221卷 / 1-3期

关键词：

desalination; brine concentration; NF; evaporation;

D O I：

10.1016/j.desal.2007.01.080

中图分类号：

TQ [化学工业];

学科分类号：

0817 ;

摘要：

At "Debiensko" Desalination Plant salt crystallizer is supplied with untreated brine concentrated by RCC evaporation method that results in high energy consumption and huge amount of post-crystallization lye. Nanofiltration pre-treatment of coal-mine brine was then considered to improve plant outcome. Desal-5L (Osmonics) nanofiltration membrane was found to be suitable for the above purpose. The rejection coefficients were found as follows (%): Ca2+ - 68.8, Mg2+ -71.6, SO42- - 98.0, Cl- - 11.9, that lets us to estimate the composition of NF permeate at 85% recovery to be as follows (g/L)follows (g/L): Ca2+ - 0.242, Mg2+ -0.188, SO42-- 0.064, Cl- - 32.2. The performance of crystallization step was then estimated based on chemical composition of NF permeate and compared with operational data from "Debiensko" Desalination Plant. The energetic efficiency of the presently operated coal mine brine treatment system was compared with the one involving NF softening as the pretreatment for low energy VC thermal desalination in place of seeded VC (RCC presently applied). This comparison shows that unit energy consumption decreases from ca 970 kWh per 1 t of evaporated salt for untreated brine concentrated by RCC method to ca 450 kWh/t when low energy VC evaporation is applied. At the same time the amount of salt in post-crystallization lye decreases from approx. 110 kg per 1 t of evaporated salt produced to ca 50 kg.

引用

页码：238 / 243

页数：6

共 50 条

[31] HOW THE GREGG RIVER COAL-MINE FINALLY GOT BACK INTO PRODUCTION - STAFF REPORT
不详
CANADIAN MINING JOURNAL, 1984, 105 (08) : 31 - &
[32] Natural Evaporation and Crystallization Regularity of Dangxiongcuo Carbonate-Type Salt Lake Brine in Tibet
Wu Qian
Zheng Mian-Ping
Nie Zhen
Bu Ling-Zhong
CHINESE JOURNAL OF INORGANIC CHEMISTRY, 2012, 28 (09) : 1895 - 1903
[33] Degradation of low-rank coal excavated from coal-mine Zahorie by filamentous fungi
Smolenova, Eva
Pokorny, Richard
Kalinak, Michal
Liptaj, Tibor
Simkovic, Martin
Varecka, Ludovit
ACTA CHIMICA SLOVACA, 2020, 13 (02): : 14 - 22
[34] FROM COAL-MINE TO CASTLE - THE STORY OF THE DUNSMUIRS OF VANCOUVER ISLAND - AUDAIN,J
SAGE, WN
PACIFIC HISTORICAL REVIEW, 1956, 25 (01) : 88 - 89
[35] EVALUATION OF A SUITABLE EXTRACTANT FOR THE EXTRACTION OF INORGANIC NITROGEN FROM COAL-MINE SOILS
KHAN, MQ
SHAH, SH
ALAM, MI
JOURNAL OF THE CHEMICAL SOCIETY OF PAKISTAN, 1991, 13 (01): : 16 - 18
[36] SOME ASPECTS OF STRUCTURAL AND ALKALINITY PROBLEMS IN SPOIL FROM AN OHAI COAL-MINE
BLACK, AS
SMITH, LC
NEW ZEALAND JOURNAL OF EXPERIMENTAL AGRICULTURE, 1981, 9 (01): : 35 - 37
[37] CROP RESPONSE IN A GREENHOUSE ENVIRONMENTALLY CONTROLLED WITH AIR DRAWN FROM A COAL-MINE
BUXTON, JW
WALKER, JN
COLLINS, LD
KNAVEL, DE
HARTMAN, JR
JOURNAL OF THE AMERICAN SOCIETY FOR HORTICULTURAL SCIENCE, 1979, 104 (05) : 696 - 698
[38] CHEMICAL-COMPOSITION OF OCHREOUS PRECIPITATES FROM OHIO COAL-MINE DRAINAGE
WINLAND, RL
TRAINA, SJ
BIGHAM, JM
JOURNAL OF ENVIRONMENTAL QUALITY, 1991, 20 (02) : 452 - 460
[39] A review of oxygen removal from oxygen-bearing coal-mine methane
Peiyu Zhao
Guojie Zhang
Yinghui Sun
Ying Xu
Environmental Science and Pollution Research, 2017, 24 : 15240 - 15253
[40] CROP RESPONSE IN A GREENHOUSE ENVIRONMENTALLY CONTROLLED WITH AIR DRAWN FROM A COAL-MINE
BUXTON, JW
WALKER, JN
COLLINS, LD
KNAVEL, DE
HARTMAN, JR
HORTSCIENCE, 1977, 12 (04) : 409 - 409

← 1 2 3 4 5 →