PROCESS FOR RECOVERY OF AMMONIUM CHLORIDE FROM WASTE WATER OF POLYVINYL CHLORIDE THERMAL STABILIZER PLANT
Polyvinyl chloride (PVC) is one of the most widely used plastic materials. However, PVC is not heat-resistant, as high temperatures can damage its physical and mechanical characteristics. Therefore, it is necessary to add a thermal stabilizer to the PVC resin before processing. One of the thermal...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/83306 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Polyvinyl chloride (PVC) is one of the most widely used plastic materials. However,
PVC is not heat-resistant, as high temperatures can damage its physical and
mechanical characteristics. Therefore, it is necessary to add a thermal stabilizer to
the PVC resin before processing. One of the thermal stabilizers commonly used in
the industry is alkyl-tin-ethylhexyl-thioglycolate. This product is obtained through
the reaction of ethylhexyl thioglycolate (EHTG) with methyl tin chloride (MTC),
producing a side product in the form of hydrochloric acid (HCl). As a result, it is
necessary to add a base to neutralize the HCl formed. The base commonly used is
ammonium hydroxide (NH4OH). This acid-base reaction produces ammonium
chloride (NH4Cl).
Ammonium chloride can be used in various industries such as chemistry,
pharmaceuticals, paper making, food, and fertilizer. The aim of this research is to
develop a recovery process for ammonium chloride from wastewater from an alkyltin-ethylhexyl-thioglycolate-based PVC thermal stabilizer factory. Recovery is
carried out through evaporative crystallization and multi-effect evaporators (MEE)
with variations of 2 and 3 evaporators (MEE 2 and MEE 3) and variations in
crystallization temperature (15°C and 25°C).
Process simulations show significant savings in heating and cooling loads. EME 2
and EME 3 save energy by 58–62% and 63–66%, respectively, compared to
conventional processes (1 evaporator). On the cooling load side, MEE 2 and MEE
3 produce savings of 62–65% and 75–79%, respectively. Economic evaluation
shows a tight level of competition between EME and conventional processes, even
though there is an increase in investment costs with the addition of more
evaporators. Conventional processes, MEE 2, and MEE 3 each have a Net Present
Value (NPV) of 2.8–3.0; 5.3–5.5; and 5.4–5.6 million USD, respectively. MEE 2
and MEE 3 have an Internal Rate of Return (IRR) of 15.8–16.0% (Payback Period
(PP) 4.0–4.1 years) and 15.1–15.2% (PP 4.0–4.4 years), respectively, compared to
conventional processes which provide an IRR of 13.5–14.2% (PP 4.7–5.0 years).
Considering the increase in investment and decrease in utility load due to the
increase in the number of evaporators, as well as the economic indicator values the MEE 2 process is estimated to be the best alternative for the recovery of
ammonium chloride from PVC thermal stabilizer factory wastewater |
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