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Pengukuran Tingkat Eko-Efisiensi Batik Cap Menggunakan Metode Life Cycle Analysis (Studi Kasus: Batik Encim pada Kampoeng Batik Kauman Pekalongan)

1Departemen Teknik Industri, Fakultas Teknik, Universitas Diponegoro, Indonesia

22Departemen Teknik Geologi, Fakultas Teknik, Universitas Diponegoro, Indonesia

Received: 5 Mar 2022; Revised: 31 Mar 2022; Accepted: 4 Apr 2022; Published: 5 Jul 2022.
Editor(s): H. Hadiyanto

Citation Format:
Abstract

Batik merupakan budaya Indonesia yang unik dan harus dilestarikan, tak hanya itu, batik juga telah ditetapkan sebagai warisan budaya dunia. Dalam proses produksi batik tersebut terdapat berbagai dampak negatif terhadap lingkungan yang diakibatkan oleh besarnya limbah cair yang dihasilkan, penggunaan zat pewarna sintesis, dan sebagainya. Hal tersebut juga terjadi pada Kampoeng Batik Kauman Pekalongan dalam memproduksi batik cap khas yang disebut batik encim. Kampoeng Batik Kauman Pekalongan merupakan kampung batik dengan jumlah Industri Kecil Menengah (IKM) yang cukup besar yaitu sekitar 30 IKM berpotensi untuk menimbulkan dampak lingkungan yang besar pula. Demi menghasilkan produk yang efisien secara ekonomi dan ekologi, perlu dilakukan analisis eko-efisiensi dan besarnya biaya dampak lingkungan yang diperlukan atau eco-cost terkait proses produksi dimulai dari awal produksi hingga akhir produk jadi. Pengukuran eko-efisiensi dilakukan menggunakan pendekatan Life Cycle Assessment (LCA). Pengukuran LCA dilakukan melalui perhitungan cost benefit analysis, eco-efficiency index, eco-cost value ratio, dan eco-efficiency ratio. Teknik pengambilan data dilakukan melalui wawancara dengan pengurus Omah Kreatif Kampoeng Batik Kauman Pekalongan, pemilik dan pekerja IKM di Kampoeng Batik Kauman Pekalongan untuk mengetahui hal-hal terkait proses produksi, input, output, dan biaya-biaya yang terkait pada proses produksi. Hasil penelitian menunjukkan nilai eco-cost Rp 69.937,365 untuk setiap lembar batik encim dan nilai eko-efisiensi 1,178 yang lebih dari 1 menandakan produk yang dihasilkan telah menguntungkan dalam aspek ekonomi dan juga sustainable. Hal tersebut menandakan bahwa Kampoeng Batik Kauman Pekalongan harus mempertahankan dan meningkatkan nilai eko-efisiensinya dengan melakukan perbaikan pada proses produksinya menjadi lebih efisien pada aspek ekonomi maupun ekologi.

ABSTRACT

Batik is a unique Indonesian culture and must be preserved, not only that, but batik has also been established as a world cultural heritage. However, the batik production process can cause various negative impacts on the environment caused by the amount of liquid waste produced, the use of synthetic dyes, etc. This also happened to Kampoeng Batik Kauman Pekalongan in producing its well-known batik cap called batik encim. Kampoeng Batik Kauman Pekalongan is a batik village with a fairly large number of Small and Medium-Sized Entrepreneurs (SMEs) which is around 30 IKM has the potential to cause a large environmental impact as well. For the sake of producing economically and ecologically efficient products, it is necessary to do an eco-efficiency analysis and the number of environmental impact costs required (eco-costs) related to the production process starting from the beginning of production to the end of each finished product. This eco-efficiency measurement is carried out using the Life Cycle Assessment (LCA) method. LCA measurement is performed through the calculation of cost benefit analysis, eco-efficiency index, eco-cost value ratio, and eco-efficiency ratio. The data collection technique was carried out through interviews with the management of Omah Kreatif Kampoeng Batik Kauman Pekalongan, owners and workers of IKM in Kampoeng Batik Kauman Pekalongan to find out things related to the production process, inputs, outputs, and costs related to the production process.The results showed the eco-cost value of Rp 69,937,365 was obtained for each encim batik and an eco-efficiency value of 1.178 which was more than 1 indicates that the product produced was profitable in economic terms and also sustainable. This indicates that Kampoeng Batik Kauman Pekalongan must maintain and increase its eco-efficiency value by making improvements in its production process to be more efficient in economic and ecological aspects.

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Keywords: Batik Encim; Kampoeng Batik Kauman; Pekalongan; keberlanjutan; eko-efisiensi
Funding: Universitas Diponegoro

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  1. Aka, C. K. (2008). Pekalongan Inspirasi Indonesia. Pekalongan: Kirana Pustaka Indonesia
  2. Anwar, F., Chaudhry, F. N., Nazeer, S., Zaman, N., & Azam, S. (2016). Causes of Ozone Layer Depletion and Its Effects on Human: Review. Atmospheric and Climate Sciences, 129-134
  3. Asriwati. (2017). Fisika Kesehatan dalam Keperawatan. Yogyakarta: Deepublish
  4. Brentrup, F., Küsters, J., Lammel, J., & Kuhlmann, H. (2002). Life Cycle Impact Assessment of Land Use Based on Hemeroby Concept. The International Journal of Life Cycle Assessment, 339-348
  5. Chmielewski, A. G. (1999). Environmental Effects on Fossil Fuel Combustion. Polandia: Institute of Nuclear Chemistry and Technology
  6. European Commission. (2002). Understanding The Effects of Radiation on Health. Luxembourg: European Communities
  7. European Environment Agency. (2016). European Assessment of Eutrophication Abatement Measures Across Land-Based Source, Inland, Coastal and Marine Waters. Jerman: European Topic Centre on Inland, Coastal and Marine Waters
  8. Gusnita, D. (2010). Deposisi Asam dan Dampaknya Terhadap Lingkungan
  9. Intergovermental Panel on Climate Change. (2019). Climate Change and Land
  10. ISO 14001. (2004). Environmental Management System - Requirements with Guidance For Use. Geneva: ISO
  11. ISO 14044. (2006). Environmental management - Life cycle assessment - Requirements and guidelines. Jenewa: International Organization for Standardization
  12. Kaya, M. (2001). Environmental Impacts of Mineral Resource Exploitation and Use. International Mining Congress and Exhibition on Tukey, 485-491
  13. Keman, S. (2007). Perubahan Iklim Global, Kesehatan Manusia dan Pembangunan Berkelanjutan. Jurnal Kesehatan Lingkungan, 195-204
  14. Kementerian Perindustrian. (2017, Januari 8). Retrieved from https://kemenperin.go.id/artikel/16828/Kemenperin-Berikan-Perhatian-IKM-Kapal-dan-Batik-di-Pekalongan
  15. Khan, S., & Malik, A. (2014). Environmental and Health Effects of Textile Industry Wastewater. Dordrecht: Springer
  16. Khasreen, M. M., Banfill, P. F., & Menzies, G. F. (2009). Life-Cycle Assessment and the Environmental Impact of Buildings: A Review. Sustainability, 674-701
  17. Klaunig, J., & Wang, Z. (2014). Carcinogenicity. USA: Elsevier
  18. Lehtinen, H., Saarentaus, A., Rouhiainen, J., Pitts, M., & Azapagic, A. (2011). A Review of LCA Methods and Tools and their Suitability for SMEs. Manchester: Europe Innova Biochem
  19. Lewis, H., & Demmers, M. (2013). Life Cycle Assessment and Environmental Management. Journal of Environmental Management
  20. Muthu, S. S., Li, Y., Hu, J.-Y., & Mok, P.-Y. (2009). An Exploratory Comparative Study on Eco-Impact of Paper and Plastic Bag. Journal of Fiber Bioengineering and Informatics, 307-320
  21. Nurainun, Heriyana, & Rasyimah. (2008). Analisis Industri Batik di Indonesia. Fokus Ekonomi, 124-135
  22. Pawlowski, L. (1996). Acidification: its impact on the environment and mitigation strategies. Ecological Engineering, 271-288
  23. Purwaningsih, R., Simanjuntak, C. F., & F., R. Z. (2020a). Analysis of Eco-Efficiency Ratio of Pencil Production Using Life Cycle Assessment (LCA) to Incrase the Manufacture Sustainability. Jurnal Teknik Industri
  24. Purwaningsih, R., Susanto, N., Adiaksa, D. A., & Putri, A. A. (2020b). Analysis of the Eco-Efficiency Level in the Dining Table Production Process Using Life Cycle Assessment Method to Increase Industry Sustainability. Annual Conference on Industrial and System Engineering
  25. Rebitzer, G. (2004). Life Cycle Assessment Part I: Framework, Goal and Scope Definition, Inventory Analysis, and Applications. Journal of Environment International 30, 701-720
  26. Rejekiningrum, P. (2014). Dampak Perubahan Iklim terhadap Sumberdaya Air: Identifikasi, Simulasi, dan Rencana Aksi. Jurnal Sumberdaya Lahan, 1-15
  27. Sari, D. P., Hartini, S., Rinawati, D. I., & Wicaksono, T. S. (2012). Pengukuran Tingkat Eko-Efisiensi Menggunakan Life Cycle Assessment untuk Menciptakan Sustainable Production di Industri Kecil Menegah Batik. Jurnal Teknik Industri, 137-144
  28. Sivasakthivel, T., & Reddy, S. K. (2011). Ozone Layer Depletion and Its Effects: A Review. International Journal of Environmental Science and Development
  29. Sonnemann, G., Castells, F., & Schuhmacher, M. (2003). Integrated Life-Cycle and Risk Assessment for Industrial Processes. Boca Raton: Lewis Publishers
  30. Sugiura, N., Utsumi, M., Wei, B., Iwami, N., Okano, K., Kawauchi, Y., & Maekawa, T. (2004). Assessment for The Complicated Occurence of Nuisance Odours from Phytoplankton and Environmental Factors in a Eutrophic Lake. Journal Lakes & Reservoirs
  31. Supartini, Hartini, S., & Rinawati, D. I. (2013). Pengukuran Tingkat Sustainabilitas Batik Tulis Pewarna Alam dengan Metode Life Cycle Assessment (LCA) (Studi Kasus di Industri Batik Mahkota Laweyan, Solo). Undip E-Journal Systems
  32. Tak Hur, Song, T., & Hye, J. (2003). A Study on The Eco-efficiencies for Recycling Methods of Plastics Wastes
  33. Vogtlander, J. G. (2010). LCA-Based Assessment of Sustainability: The Eco-cost/Value Ratio. Netherlands: VSSD leeghwaterstraat
  34. Walker, C. (2014). Ecotoxicology: Effects of Pollutants on the Natural Environmental. Spain: CRC Press
  35. Windrianto, Y., Rachmawati, D., & Berlianty, I. (2016). Pengukuran Tingkat Eko-Efisiensi Menggunakan Metode Life Cycle Assessment (LCA) untuk Menciptakan Produksi Batik yang Efisien dan Ramah Lingkungan. Jurnal Optimasi Sistem Industri

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