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Sari Ichtiari; Pembimbing: Mila Tejamaya; Penguji: Azahruddin Fauzi, Fatma Lestari
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Penggunaan bahan kimia seperti pelarut organik (organic solvent), media blasting, bubuk keramik, bubuk logam, material mengandung nanopartikel serta asap las berbahaya (welding fumes) pada perbaikan Industrial Gas Turbine (IGT) berpotensi menimbulkan bahaya kesehatan pada pekerja. Kontak pekerja dengan bahan kimia melalui rute pajanan inhalasi dan dermal, dapat menimbulkan dampak kesehatan akut seperti iritasi kulit hingga gangguan kronis seperti kanker, gagal ginjal, sirosis hati, dan lain-lain. Oleh karena itu, penelitian ini bertujuan untuk menganalisis risiko kesehatan terkait penggunaan bahan kimia pada empat sub-proses perbaikan Industrial Gas Turbine (IGT) yaitu sandblasting, dye penetrant inspection (DPI), pengelasan (welding) dan Thermal Barrier Coating (TBC). Rute pajanan yang diteliti meliputi inhalasi dan kontak dermal. Metode yang digunakan adalah metode semikuantatif yaitu Chemical Health Risk Assessment (CHRA DOSH Malaysia) untuk pajanan inhalasi dan RISKOFDERM untuk pajanan dermal. Ditemukan bahwa terdapat 12 dari 28 bahan kimia (42,8%) berisiko tinggi terhadap apabila terhirup, yaitu aluminium oksida dan silika pada sandblasting; hidrokarbon C12-C15 (kerosin), n- alkana, isoalkana, siklik aromatic, distilasi minyak bumi (Naphtha) pada DPI; gas ozon, mangan, silika dan heksavalen kromium pada asap pengelasan; zirconia pada bubuk pelapis Metco204NS dan nikel, kobalt, kromium pada bubuk pelapis Amdry 995 pada TBC. Untuk rute pajanan dermal terdapat 7 dari 11 (63,6%) bahan kimia memiliki risiko efek lokal tinggi yaitu hidrokarbon C12-C15, distilasi minyak bumi (Naphtha), 2-Naphthalenol dan tetrahidro-furfuril salisilat pada DPI;nikel, kobalt dan kromium pada TBC. Selain terdapat 1 dari 11 (9%) bahan kimia memiliki risiko efek sistemik tinggi yaitu nikel pada TBC.
The use of chemicals such as organic solvents, blasting media, ceramic powders, metal powders, nanoparticles materials and welding fumes in industrial gas turbine (IGT) repair processes have the potential to pose health hazards to workers. Exposure to the workers through inhalation and dermal can cause acute health effects such as skin irritation, till chronic effects like cancer, kidney disease, liver cirrhosis, etc. Therefore, this study aims to analyze the health risks associated with the use of chemicals in four sub-processes of Industrial Gas Turbine (IGT) namely sandblasting, dye penetrant inspection (DPI), welding and thermal barrier coating (TBC). The scope of the exposure route includes inhalation and dermal contact. For inhalation, health risk determination used a semiquantitative method, Chemical Health Risk Assessment from DOSH Malaysia (CHRA DOSH Malaysia); RISKOFDERM for dermal exposure. The result shows that 12 out of 28 chemicals (42.8%) have high risk via inhalation namely aluminum oxide and silica in sandblasting;hydrocarbons C12-C15 (kerosene), n-alkanes, isoalkanes, cyclic aromatics, petroleum distillation (Naphtha) in dye penetrant inspection; ozone, manganese, silica and hexavalent chromium gases as welding fumes;zirconia in metco204NS powder coating and nickel, cobalt, chromium in Amdry995 powder coating for thermal barrier coating (TBC). For dermal exposure route, there were 7 out of 11 (63,6%) chemicals have high local risk namely hydrocarbons C12-C15 (kerosene), n-alkanes, isoalkanes, cyclic aromatics, petroleum distillation (Naphtha), 2-naphthalenol, and tetrahydro-furfuryl salicylate in dye penetrant inspection; nickel, cobalt and chromium in Thermal Barrier Coating (TBC) and 1 out of 11 chemicals (9%) have high systemic risk namely nickel in Thermal Barrier Coating (TBC).
S-11094
Depok : FKM-UI, 2022
S1 - Skripsi Pusat Informasi Kesehatan Masyarakat
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Sari Ichtiari; Pembimbing: Mila Tejamaya; Penguji: Azahruddin Fauzi, Fatma Lestari
Abstrak:
Penggunaan bahan kimia seperti pelarut organik (organic solvent), media blasting, bubuk keramik, bubuk logam, material mengandung nanopartikel serta asap las berbahaya (welding fumes) pada perbaikan Industrial Gas Turbine (IGT) berpotensi menimbulkan bahaya kesehatan pada pekerja. Kontak pekerja dengan bahan kimia melalui rute pajanan inhalasi dan dermal, dapat menimbulkan dampak kesehatan akut seperti iritasi
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S1 - Skripsi Pusat Informasi Kesehatan Masyarakat
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Mirsupi Usman; Pembimbing: Milla Tejamaya; Penguji: Hendra; Abdul Kadir, Dippu Rocky Nababan, Laode Syahrizal
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Seiring dengan target pemerintah dalam peningkatan produksi minyak dan gas di lepas pantai, maka penggunaan bahan kimia dalam kegiatan produksi minyak dan gas semakin meningkat, hal ini memunculkan kekhawatiran akan potensi permasalahan kesehatan pekerja, oleh karenanya perlu dilakukan kajian risiko kesehatan. Penelitian ini bertujuan untuk menganalisis tingkat risiko (risk rating/RR) kesehatan terkait pajanan dari kesebelas bahan kimia utama yang digunakan pekerja, pada proses produksi minyak dan gas di kapal FPSO XYZ tahun 2022. Metode Chemical Risk Assessment (CRA) yang digunakan adalah Stoffenmanager® 8 version 5.0 yang merupakan tools untuk menilai risiko kesehatan jalur pajanan inhalasi dan dermal dari penanganan enam bahan kimia oleh production technician di area kerja topside deck dan lima bahan kimia oleh utility operator di area kerja machinery deck. Hasil CRA menunjukkan bahwa tingkat risiko (RR) jalur inhalasi dimana satu bahan kimia kategori risiko tinggi (1,highest) delapan bahan kimia kategori risiko sedang (2, medium), dan dua bahan kimia risiko rendah (3, lowest). Sedangkan berdasarkan risk characterization ratio (RCR) pajanan inhalasi, ada dua bahan kimia yang diketahui nilai RCR task ≥ 1, yang berarti perkiraan konsentrasi emisi yang dihasilkan saat beraktivitas (task concentration estimation/TCE) terhadap potensi bahaya terhirup oleh production technician dan utility operator saat beraktivitas pada jarak yang dekat dengan sumber emisi, dikategorikan berbahaya atau risiko tidak dapat di tolerir (Unacceptable risk). Untuk tingkat risiko dermal efek lokal (skin local), sembilan bahan kimia masuk kategori risiko tinggi dan dua bahan kimia masuk kategori risiko sedang. Sedangkan tingkat risiko dermal efek sistemik (skin uptake), empat bahan kimia kategori risiko sedang, dan tujuh bahan kimia kategori risiko rendah. Hasil risk rating (RR) menentukan pula prioritas tindakan (Action Priority/AP) pengendalian risiko kesehatan. Rekomendasi pengendalian adalah menurunkan tingkat bahaya (HR) dengan melakukan penggantian bahan kimia (subtitusi) dengan bahan kimia yang lebih rendah tingkat bahayanya bagi kesehatan, dan untuk pajanan dermal (ER), otomatisasi proses penanganan, modifikasi teknik pekerjaan dengan membuat sistem penambahan bahan kimia secara gravitasi, menurunkan jumlah dosis pemakaian namun tetap efektif efisien (workplace-related modifiers), mengurangi waktu dan frekuensi penggunaan bahan kimia tersebut (activity time), penambahan ventilasi lokal (LEV) selain ventilasi mekanik, serta menggunakan baju khusus tahan kimia beserta sarung tangannya atau Chemsuit (control measures modifiers)
Along with the government's target to increase offshore oil and gas production, the use of chemicals in oil and gas production activities tends to increase, this raises concerns about potential health problems for workers, therefore it is necessary to conduct a chemical health risk assessment. This study aims to analyze the health risk rating (RR) related to exposure to the eleven main chemicals used by workers in the oil and gas production process on the FPSO XYZ ship in 2022. The Chemical Risk Assessment (CRA) method that is used is Stoffenmanager® 8 version 5.0 which is a tool to assess the health risks of inhalation and dermal exposure lines from the handling of six chemicals by production technicians on the topside deck work area and five chemicals by utility operators on the machinery deck work area. The results of the CRA show that the risk level (RR) for the inhalation route are one chemical in the high risk category (1,highest), eight chemicals in the medium risk category (2, medium), and two chemicals in the low risk category (3, lowest). Meanwhile, based on the risk characterization ratio (RCR) of inhalation exposure, there are two chemicals whose RCR task value is ≥ 1, which means the estimated concentration of emissions produced during the activities (task concentration estimation/TCE) against the potential inhalation hazard by production technicians and utility operators when activities at a close distance to the emission source, are categorized as a dangerous or unacceptable risk. For the level of dermal risk of local effects (skin local), nine chemicals are in the high risk category and two chemicals are in the medium risk category. While the level of risk of dermal systemic effects (skin uptake), four chemicals were in the moderate risk category, and seven chemicals were in the low risk category. The results of the risk rating (RR) also determine the priority of action (Action Priority/AP) for controlling health risks. Control recommendations are to reduce the level of hazard (HR) by replacing chemicals (substitutions) with lower chemicals levels of danger to health, and for dermal exposure (ER), automation of handling processes, modification of work techniques by making chemical addition systems automatically. gravity, reducing the number of doses used but still being effective and efficient (workplace-related modifiers), reducing the time and frequency of using these chemicals (activity time), adding local ventilation (LEV) in addition to mechanical ventilation, and using special chemical resistant clothing and gloves or Chemsuit (control measures modifiers)
S-11183
Depok : FKM-UI, 2022
S1 - Skripsi Pusat Informasi Kesehatan Masyarakat
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Yenni Miranda Savira; Pembimbing: Mila Tejamaya; Penguji: Hendra, Syahrul Efendi Panjaitan
S-10129
Depok : FKM UI, 2019
S1 - Skripsi Pusat Informasi Kesehatan Masyarakat
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Aji Dwi Yuniarso; Pembimbing: Sjahrul Meizar Nasri; Penguji: Hendra, Mila Tejamaya, Muthia Ashifa, Listya Eka Anggraini
Abstrak:
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Penggunaan bahan kimia berbahaya seperti formaldehida, fenol, dan senyawa azo dalam industri pewarna tekstil menimbulkan risiko serius terhadap kesehatan pekerja. Penelitian ini bertujuan untuk menganalisis tingkat risiko kesehatan akibat pajanan bahan kimia di Industri Pewarna Tekstil PT X tahun 2025. Metode yang digunakan adalah penilaian risiko kesehatan berbasis pendekatan Chemical Health Risk Assessment (CHRA) dari DOSH Malaysia, penilaian dilakukan terhadap dua rute pajanan yaitu inhalasi dan dermal dengan menilai Hazard Rating (HR) untuk menentukan tingkat bahaya bahan kimia berdasarkan sifat toksikologi, Exposure Rating (ER) untuk menilai frekuensi, durasi, dan intensitas pajanan melalui inhalasi dan dermal, serta Risk Rating (RR) sebagai hasil dari HR dikalikan dengan ER. Metode pengumpulan data mencakup observasi lapangan, wawancara, dan kuesioner terhadap pekerja produksi dan laboratorium. Hasil penelitian menunjukkan bahwa sebagian besar bahan kimia tergolong dalam kategori risiko tinggi dengan jalur pajanan utama melalui inhalasi dan dermal. Data klinik menunjukkan tingginya kasus ISPA pada pekerja. Evaluasi mengindikasikan bahwa pengendalian yang diterapkan belum sepenuhnya memadai. Rekomendasi mencakup peningkatan sistem pengendalian teknis, administratif, dan pelatihan pekerja. Penilaian ini menjadi dasar penting dalam upaya pencegahan penyakit akibat kerja dan peningkatan program K3.
The use of hazardous chemicals such as formaldehyde, phenol, and azo compounds in the textile dye industry poses serious risks to workers' health. This study aims to analyze the level of health risk due to chemical exposure in the Textile Dye Industry of PT X in 2025. The method used is a health risk assessment based on the Chemical Health Risk Assessment (CHRA) approach from DOSH Malaysia, the assessment is carried out on two routes of exposure, namely inhalation and dermal by assessing the Hazard Rating (HR) to determine the level of chemical hazard based on toxicological properties, Exposure Rating (ER) to assess the frequency, duration, and intensity of exposure through inhalation and dermal, and Risk Rating (RR) as the result of HR multiplied by ER. Data collection methods include field observations, interviews, and questionnaires with production and laboratory workers. The results showed that most chemicals are classified as high-risk with the main exposure routes through inhalation and dermal. Clinical data showed high cases of ARI in workers. The evaluation indicated that the controls implemented were not fully adequate. Recommendations include improving the technical, administrative, and worker training control systems. This assessment is an important basis for efforts to prevent work-related diseases and improve K3 programs.
T-7374
Depok : FKM UI, 2025
S2 - Tesis Pusat Informasi Kesehatan Masyarakat
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Rizki Rahmawati; Pembimbing: Mila Tejamaya; Penguji: Hendra, Fitri Kurniasari, Elsye As Safira, Emanuel Eko Haryanto
Abstrak:
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Industri pupuk memiliki peran strategis dalam mendukung ketahanan pangan nasional, meskipun tetap menghadapi risiko kesehatan pekerja akibat pajanan Bahan Berbahaya dan Beracun (B3). Penelitian ini bertujuan untuk menganalisis tingkat risiko kesehatan (Risk Rating/RR) terkait pajanan bahan kimia pada pekerja di industri pupuk tahun 2024. Penilaian risiko kesehatan dilakukan menggunakan Chemical Health Risk Assessment (CHRA) yang dikembangkan oleh Departemen Occupational Safety and Health (DOSH), Malaysia (2018). Penilaian meliputi aktivitas bongkar muat bahan kimia, pengambilan sampel laboratorium, dan penambahan bahan penolong, dengan jalur pajanan inhalasi dan dermal. Hasil penelitian menunjukkan bahwa pada aktivitas bongkar muat, tingkat risiko inhalasi dan dermal berkisar dari sedang hingga berat (RR inhalasi bernilai 9-15; RR dermal bernilai M1 dan H1). Aktivitas pengambilan sampel menunjukkan tingkat risiko inhalasi sedang hingga berat (RR bernilai 6-10) dan tingkat risiko dermal sedang (RR bernilai M1). Pada aktivitas penambahan bahan penolong, tingkat risiko inhalasi sedang (RR bernilai 9-10) dan risiko dermal sedang hingga berat (RR bernilai M1 dan H1). Pengendalian risiko yang ada di PT X belum cukup efektif, sehingga tindakan perbaikan yang direkomendasikan meliputi: evaluasi substitusi penggunaan gas klorin, desain ulang stasiun pengisian asam sulfat, mechanical integrity untuk peralatan kritis, penggunaan alat bantu pengambilan sampel bahan kimia cair, menyusun instruksi kerja dan memberikan pelatihan terkait bahaya dan pengendalian bahan kimia, konsistensi penggunaan alat pelindung diri (APD), menerapkan respiratory protection program secara menyeluruh, kesiapan menghadapi keadaan darurat, pemantauan pajanan secara personal, dan pemeriksaan kesehatan secara berkala bagi pekerja non organik yang terpajan bahan kimia. Implementasi rekomendasi ini diharapkan dapat menurunkan tingkat risiko kesehatan terkait bahan kimia pada pekerja di industri pupuk.
The fertilizer industry has a strategic role in supporting national food security, although it still faces workers' health risks due to exposure to hazardous and toxic substances (B3). This study aims to analyze the level of health risk (Risk Rating/RR) related to chemical exposure to workers in the fertilizer industry in 2024. The health risk assessment was carried out using the Chemical Health Risk Assessment (CHRA) developed by the Department of Occupational Safety and Health (DOSH), Malaysia (2018). The assessment includes chemical loading and unloading activities, taking laboratory samples, and adding adjuvants, with inhalation and dermal exposure routes. The research results show that in loading and unloading activities, the level of inhalation and dermal risk ranges from moderate to severe (inhalation RR is 9-15; dermal RR is M1 and H1). Sampling activities indicate a moderate to severe inhalation risk level (RR value 6-10) and a moderate dermal risk level (RR value M1). In the activity of adding adjuvants chemical, the level of inhalation risk is moderate (RR is 9-10) and the dermal risk is moderate to severe (RR is M1 and H1). Existing risk control at PT X is inadequate, so the following corrective actions are recommended: evaluating alternatives to chlorine gas, redesigning the sulfuric acid filling station, mechanical integrity for critical equipment, using liquid chemical sampling aids, compiling work instructions, and providing hazardous and chemical control training. For non-organic workers who are exposed to chemicals, it is important to use personal protection equipment (PPE) consistently, respiratory protection program, be prepared for emergencies, monitor personal exposure, and have frequent health tests. The implementation of these guidelines is likely to reduce chemical-related health risks for fertilizer industry personnel.
T-7027
Depok : FKM UI, 2024
S2 - Tesis Pusat Informasi Kesehatan Masyarakat
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Polma Erik Astrada; Pembimbing: Mila Tejamaya; Penguji: Doni Hikmat Ramdhan, Hendra; Muhamad Dawaman, Eka Fitriani Ahmad
Abstrak:
Produksi perisa makanan menggunakan beberapa bahan kimia yang berbahaya bagi kesehatan baik melalui pajanan terhadap sistem pernafasan ataupun penyerapan dermal. Berdasarkan beberapa penelitian risiko kesehatan dari bahan kimia menjelaskan bahwa bahan-bahan kimia tersebut memiliki risiko tinggi. Penelitian ini bertujuan untuk mengkaji risiko kesehatan terkait pajanan bahan baku perisa makanan di PT. X berdasarkan tingkat bahaya, pajanan, risiko kesehatan hingga pengendalian yang dilakukan. Metode penelitian dilakukan dengan penelitian risiko kesehatan terhadap bahan kimia dengan mengidentifikasi bahaya berdasarkan karakteristik dari bahan kimia hingga besar pajanan yang diterima oleh pekerja sehingga dapat dinilai risikonya. Hasil dari penelitian ini menunjukan bahwa risiko pajanan di PT X. Proses pembuatan perisa makanan di PT X memiliki menggunakan sejumlah seratus tiga puluh bahan kimia yang digunakan untuk proses produksi bahan perisa makanan yang digunakan dari proses penimbangan dan persiapan bahan baku. Berdasarkan penelitian terhadap bahan kimia didapatkan hasil bahwa risiko pajanan melalui jalur inhalasi merupakan risiko sedang sedangkan risiko pajanan melalui jalur penyerapan dermal merupakan risiko tinggi pada risiko korosi pada kulit dengan risiko tertinggi pada proses pengisian dan pengemasan. Penelitian ini bersifat kualitatif dengan melakukan studi pada karakteristik bahan kimia serta analisis data sekunder dari perencanaan produksi sehingga data besaran pajanan bersifat kualitatif. Penulis menyarankan untuk melakuan pengamatan secara kuantitif dengan melakukan uji pajanan dari pekerja yang melakukan proses bahan kimia tersebut sehingga mendekati respon dosis yang diterima oleh pekerja.
Chemicals which are used at flavor industry potentially harmful to health through exposure to the respiratory or dermal systems. Based on several studies of the health risks of chemicals explained chemicals have a high risk. This study objective is to examine the health risks associated with exposure to raw materials for food flavoring in PT. X based on the level of danger, exposure, health risks to controls. The research method is carried out by researching health risks to chemicals by identifying hazards based on the characteristics of the chemical to the extent of exposure received by workers so that the risk can be assessed. The results of this study indicate that the risk of exposure at PT X The process of making food flavors at PT X has used one hundred and thirty chemicals used for the production of food flavoring materials used from the weighing and raw material preparation process. Based on research on chemicals found that the risk of exposure through inhalation is a moderate risk while the risk of exposure through the dermal pathway is a high risk of risk of corrosion to the skin with the highest risk in the filling and packaging process. This research is qualitative by conducting a study on the characteristics of chemicals and secondary data analysis from production planning so that the amount of exposure data is qualitative. The author suggests conducting quantitative observations by conducting exposure tests from workers who carry out the chemical process so that they approach the dose response received by the worker.
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Chemicals which are used at flavor industry potentially harmful to health through exposure to the respiratory or dermal systems. Based on several studies of the health risks of chemicals explained chemicals have a high risk. This study objective is to examine the health risks associated with exposure to raw materials for food flavoring in PT. X based on the level of danger, exposure, health risks to controls. The research method is carried out by researching health risks to chemicals by identifying hazards based on the characteristics of the chemical to the extent of exposure received by workers so that the risk can be assessed. The results of this study indicate that the risk of exposure at PT X The process of making food flavors at PT X has used one hundred and thirty chemicals used for the production of food flavoring materials used from the weighing and raw material preparation process. Based on research on chemicals found that the risk of exposure through inhalation is a moderate risk while the risk of exposure through the dermal pathway is a high risk of risk of corrosion to the skin with the highest risk in the filling and packaging process. This research is qualitative by conducting a study on the characteristics of chemicals and secondary data analysis from production planning so that the amount of exposure data is qualitative. The author suggests conducting quantitative observations by conducting exposure tests from workers who carry out the chemical process so that they approach the dose response received by the worker.
T-5956
Depok : FKM-UI, 2020
S2 - Tesis Pusat Informasi Kesehatan Masyarakat
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Muhammad Iqbal; Pembimbing: Mila Tejamaya; Penguji: Windi; Hendra
Abstrak:
Sektor ketenagalistrikkan menjadi salah satu pekerjaan yang berisiko dengan gangguan akibat paparan tekanan panas. Tekanan panas terjadi akibat dari kombinasi faktor-faktor lingkungan kerja, faktor-faktor pekerjaan dan faktor-faktor individu. Penelitian ini merupakan penelitian kuantitatif dengan desain studi cross-sectional yang dilakukan pada bulan Maret-Juni 2022 dengan 58 responden. Hasil penelitian menunjukkan bahwa apparent temperature yang dihasilkan berkisar antara 26oC - 42oC, dengan kelembaban relatif berkisar antara 38,1% hingga 58,2% dan dry bulb antara 24,8oC hingga 37,7oC. Setelah dinilai dengan menggunakan basic thermal risk assessment ditemukan bahwa mayoritas responden tergolong ke dalam kategori low- moderate yaitu 28 responden (48,3%), kemudian very high sebanyak 15 responden (43,1%) dan high sebanyak 5 responden (8,6%). Hasil pengukuran menunjukkan bahwa tidak terdapat hubungan yang signifikan antara faktor individu yaitu usia, indeks massa tubuh, ketersediaan air minum, status aklimatisasi dan status kesehatan dengan tingkat risiko heat stress (nilai p <0,05). Berdasarkan hal tersebut, perusahaan disarankan untuk melakukan upaya lebih lanjut untuk pengendalian tekanan panas berupa pengendalian teknik, pengendalian administratif dan juga personal untuk meminimalisasi risiko heat stress.
The electricity sector is one of the riskiest jobs with disruptions due to exposure to heat stress. Heat stress occurs as a result of a combination of work environment factors, work factors and individual factors. This study is a quantitative study with a cross-sectional study design conducted in March-June 2022 with 58 respondents. The results showed that the apparent temperature ranged from 26oC - 42oC, with relative humidity ranging from 38.1% to 58.2% and dry bulb between 24.8oC to 37.7oC. After being assessed using a basic thermal risk assessment, it was found that the majority of respondents belonged to the low-moderate category, namely 28 respondents (48.3%), then very high as many as 15 respondents (43.1%) and high as many as 5 respondents (8.6% ). The measurement results show that there is no significant relationship between individual factors, namely age, body mass index, availability of drinking water, acclimatization status and health status with the level of risk of heat stress (p value <0.05). Based on this, the company is advised to make further efforts to control heat stress in the form of technical control, administrative control and also personal control to minimize the risk of heat stress.
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The electricity sector is one of the riskiest jobs with disruptions due to exposure to heat stress. Heat stress occurs as a result of a combination of work environment factors, work factors and individual factors. This study is a quantitative study with a cross-sectional study design conducted in March-June 2022 with 58 respondents. The results showed that the apparent temperature ranged from 26oC - 42oC, with relative humidity ranging from 38.1% to 58.2% and dry bulb between 24.8oC to 37.7oC. After being assessed using a basic thermal risk assessment, it was found that the majority of respondents belonged to the low-moderate category, namely 28 respondents (48.3%), then very high as many as 15 respondents (43.1%) and high as many as 5 respondents (8.6% ). The measurement results show that there is no significant relationship between individual factors, namely age, body mass index, availability of drinking water, acclimatization status and health status with the level of risk of heat stress (p value <0.05). Based on this, the company is advised to make further efforts to control heat stress in the form of technical control, administrative control and also personal control to minimize the risk of heat stress.
S-11101
Depok : FKM-UI, 2022
S1 - Skripsi Pusat Informasi Kesehatan Masyarakat
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Yuli Irmayanti; Pembimbing: Mila Tejamaya; Penguji: Lestari Fatma, Arif Susanto, Henny Purwaningsih
Abstrak:
Penggunaan berbagai pelarut organik volatil di labotatorium pengujian menimbulkan risiko terhadap dampak kesehatan baik dalam jangka pendek maupun jangka panjang. Oleh karena itu perlu dilakukan kajian risiko kesehatan. Chemical Health Risk assessment (CHRA) atau kajian risiko kesehatan yang dikembangkan oleh Department of Occupational Safety and Health (DOSH), Ministry of Human Resources, Malaysia (2018) digunakan dalam studi ini untuk menilai risiko kesehatan akibat pajanan inhalasi dan dermal dari 3 (tiga) pelarut organik volatil yaitu chloroform, dichlorometane, dan tetrachloroethylee. Penelitian dilakukan terhadap 3 (tiga) karyawan laboratorium PT X yang bekerja di 3 (tiga) lokasi ruangan yang berbeda. Penilaian tingkat risiko atau risk rating (RR) pajanan bahan kimia melalui inhalasi dilakukan secara kualitatif dan kuantitaif, sedangkan pajanan melalui dermal dinilai secara kualitatif saja. Diperoleh bahwa hasil penilain tingkat risiko pajanan bahan kimiakimia melalui inhalasi secara kualitatif adalah chloroform (RR=16) dengan tingkat risiko tinggi, dichlorometane (RR=15) dengan tingkat risiko menengah, dan tetrachloroethylene (RR=12) dengan tingkat risiko menengah Hasil penilaian tingkat risiko pajanan bahan kimia melalui inhalasi secara kuantitaif adalah chloroform (TWA pengukuran = 18,460 ppm) dengan tingkat risiko tinggi (RR=20), dichlorometane (TWA pengukuran = 0,362 ppm) dengan tingkat risiko rendah (RR=3), dan tetrachloroethylene (TWA pengukuran = 0,560) dengan tingkat risiko rendah (RR=3).Hasil penilaian tingkat risiko pajanan bahan kimia melalui dermal secara kualitatif dengan luas area kontak kecil dan durasi panjang adalah chloroform (M2) dengan tingkat risiko menengah, dichlorometane (M2) dengan tingkat risiko menengah dan tetrachloroethylene (M2) dengan tingkat risiko menengah. Pengendalian untuk menurunkan risiko pajanan chloroform melalui inhalasi (AP-3) direkomendasikan dalam penelitian ini.
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T-5700
Depok : FKM-UI, 2019
S2 - Tesis Pusat Informasi Kesehatan Masyarakat
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Prilyana Fajria Imawati; Pembimbing: Mila Tejamaya; Penguji: Hendra, Elsye As Shafira
Abstrak:
Penelitian ini bertujuan untuk menganalisis risiko kesehatan terkait pajanan bahaya kimia benzene, toluene, dan xylene pada pekerja di unit pengolahan minyak dan gas bumi. Penelitian ini menganalisis pajanan bahaya kimia benzene, toluene, dan xylene di dua unit pengolahan minyak bumi menggunakan metode Chemical Hazard Risk Assessment dari Departemen of Safety and Health Malaysia Tahun 2018. Hasil penelitian menunjukan bahwa benzene termasuk dalam kategori tingkat risiko kesehatan tinggi, sedangkan toluene dan xylene termasuk dalam kategori tingkat risiko kesehatan rendah. Tingkat pajanan bahaya kimia benzene, toluene, dan xylene dengan nilai rata-rata tertinggi berada pada unit laboratorim.
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S-10723
Depok : FKM UI, 2021
S1 - Skripsi Pusat Informasi Kesehatan Masyarakat
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