Environmental Issues in Thailand

Environmental Issues in Thailand

Environmental issues in Thailand  Some Summaries In Thailand, there are 22 river basins of master plan. This master plan is associated with the cabinet approval. This master plan is associated with national strategy of cabinet approval. The source of this master plan is from 1. Agency plan, 2. Meteorology department, local government, subdistrict, scale capacity, two source. River master plan needs more information before the project will be accepted. Also they will approve budget for this project which they can obtain the money. Online monitoring system is very effective that has impacts from the water resource. The system is belong to the agency. The function is very important. This strategy is associated infrastructure, non-structural, innovation, technology, water management, time management and structural. Usually, we can monitor the outcome of the effluent. During the online monitoring system, it can be effectively monitoring the impact from water resource. This is also associated to the circle, belong to the agency. These things are also associated with the function. The strategies of infrastructure are innovation, technology, water management, real time management, institutional and structural. The function of the huge data sensor is very important. The setting of data is very necessary. We requires the chair, big flat, big data center, real time, data and forecast analysis, still new, still use some existing model, that we need to starting it. Furthermore, the monitoring for the dry season is also important. The function should be managed properly. Every project should be discussed with the chairman of the project. In the situation, it requires a lot of management. After forecast, disaster of warning can be finished...
IWA Conference

IWA Conference

Claudia Sadoff In terms of social expectation, 1.2 billion people have no access to water sanitation. It has become the main issues related to drinking water management. Pesticides, lifestyle, and microplastic have become the source of issues in the water sanitation. There are three paradigms to revisit in order to manage environmental sanitation and drinking water. All of those contexts related to water economics, water engineering, and water management. The context of water economics related to conservation, sustainability, efficiency, and allocation. Then, water engineering related to the circular system, multi-purpose planning, and nature-based infrastructure. In addition, water management related to the effectiveness of governance, adaptive, flexible, and information from stakeholders....
U Bike

U Bike

Berikut adalah website yang dapat digunakan untuk registrasi u bike: https://taipei.youbike.com.tw/station/map  
Pembuatan Larutan Standar Solution

Pembuatan Larutan Standar Solution

Pengenceran dari Pb pekat.  Pada larutan standard solution Pb pekat memiliki nilai konsentrasi sebesar 101 mg/L dalam 100 mL Konsentrasi 15 mg/L — V1 x M1 = V2 X M2, Diketahui:  Konsentrasi Pb Pekat = 101 mg/L,  Konsentrasi Pb yang ingin dibuat = 15 mg/L, Volume yang dibutuhkan = 15 mg/L V1 x 101 mg/L = 15 mL x 15 mg/L 101 V1 = 225, V1 = 225 / 101 = 2,227 mL = 2.23 mL Tambahkan sebanyak 12.77 mL HNO3 2% dalam 2.23 mL larutan standard Pb. Pembuatan larutan standar solution: Konsentrasi 15 mg/L= 15 mL – 2.23 mL = 12.77 mL Konsentrasi 10 mg/L = 15 mL – 1.485 mL = 13.515 mL Konsentrasi 8 mg/L = 15 mL – 1.19 mL = 13.81 mL Konsentrasi 6 mg/L = 15 mL – 0.891 mL = 14.109 mL Konsentrasi 4 mg/L = 15 mL – 0.594 mL = 14.40 mL Konsentrasi 2 mg/L = 15 mL – 0.279 mL = 14.703 mL Konsentrasi 1 mg/L = 15 mL – 0.148 mL = 14.852 mL Konsentrasi 0.5 mg/L = 15 mL – 0.074 mL = 14.926 mL Konsentrasi 0.25 mg/L = 15 mL – 0.037 mL = 14.963 mL Konsentrasi 0.125 mg/L = 15 mL – 0.018 mL = 14.982 mL Konsentrasi 0.0625 mg/L = 15 mL – 0.0009 mL = 14.991...
Leaching Procedure

Leaching Procedure

Prosedur melakukan leaching proses dengan larutan asam Samples (1 g) — Acid Solution (25 mL) — Agitation (400 rpm 80 c)—Sentrifugasi (4000 rpm, 10 menit)—Filter (whatman no 45)
Pembuatan Larutan Stok Asam Sulfat dan Asam Klorida

Pembuatan Larutan Stok Asam Sulfat dan Asam Klorida

Pembuatan larutan HCL untuk stok 500 mL Membuat larutan HCl 5 M dalam 250 mL aquadest = Pipet 103.65 mL  larutan HCl pekat kedalam 146.35 mL aquadest. Membuat larutan HCl 5 M dalam 500 mL aquadest = Pipet 207,3 mL  larutan HCl pekat kedalam 292,7 mL aquadest. Pembuatan larutan HCl untuk stok 250 mL dengan larutan stok 5 M 500 mL. HCl 3 M = Pipet 150 mL HCl 5 M kedalam 100 mL aquadest. HCl 1 M = Pipet 50 mL HCl 5 M kedalam 225 mL aquadest. HCl 0.5 M = Pipet 25 mL HCl 5 M kedalam 225 mL aquadest. HCl 0.1 M = Pipet 5 mL HCl 5 M kedalam 245 ml aquadest.   Pembuatan larutan H2SO4 untuk stok 500 mL Membuat larutan H2SO4 5 M dalam 250 mL aquadest = Pipet 69.44 mL  larutan HCl pekat kedalam 180.55 mL aquadest. Membuat larutan H2SO4 5 M dalam 500 mL aquadest = Pipet 361,1 mL  larutan H2So4 pekat kedalam 138,9 mL aquadest. H2SO4 3 M = Pipet 150 mL H2SO4 5 M kedalam 350 mL aquadest. H2So4 1 M = Pipet 50 mL H2So4 5 M kedalam 200 mL aquadest. HCl 0.5 M = Pipet 25 mL H2So4 5 M kedalam 225 mL aquadest. HCl 0.1 M = Pipet 5 mL H2So4 5 M kedalam 245 ml aquadest.  ...
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