工业用水价格杠杆的有效性——基于联立方程模型

doi:10.31497/zrzyxb.20200213

自然资源学报 ›› 2020, Vol. 35 ›› Issue (2): 413-424.doi: 10.31497/zrzyxb.20200213

工业用水价格杠杆的有效性——基于联立方程模型

胡晓霁¹, 唐溧², 刘亚慧², 董筱丹²

1. 中国人民大学财政与金融学院,北京 100872;
2. 中国人民大学农业与农村发展学院,北京 100872

收稿日期:2019-01-02 修回日期:2019-04-03 出版日期:2020-02-28 发布日期:2020-02-28
通讯作者: 董筱丹（1978- ）,女,黑龙江齐齐哈尔人,副教授,主要从事乡村治理和区域经济研究。E-mail: windyfeng@vip.sina.com
作者简介:胡晓霁（1993- ）,男,湖北黄冈人,博士研究生,主要从事资源经济与公司治理研究。E-mail: huxiaojiy3@ruc.edu.cn
基金资助:
中国人民大学“中央高校建设世界一流大学（学科）和特色发展引导专项（16XNLG06）

Effectiveness of industrial water price leverage: Based on simultaneous equation model

HU Xiao-ji¹, TANG Li², LIU Ya-hui², DONG Xiao-dan²

1. School of Finance, Renmin University of China, Beijing 100872, China;
2. School of Agriculture Economics and Rural Development, Renmin University of China, Beijing 100872, China

Received:2019-01-02 Revised:2019-04-03 Online:2020-02-28 Published:2020-02-28

摘要/Abstract

摘要： 对于工业用水而言,价格杠杆的有效性以及用水价格上涨能否提升工业用水重复利用率,对推进工业节水以及工业转型发展具有重要意义。基于2016年中国地级以上城市的216个数据,利用联立方程处理内生性问题,其三阶段回归结果估计所得工业用水价格弹性为-3.423,即价格每上涨1%,工业用水需求量将减少3.42%,这一结果高于农业、居民生活用水价格弹性。另外,进一步从工业用水特征出发,研究讨论价格杠杆能否提高工业用水重复利用率。分别运用普通最小二乘法和加权最小二乘法探讨水价对工业用水重复利用率的影响,结果表明：水价与工业用水重复利用率显著正相关。因此,提高工业水价能促进工业循环用水,进而实现节约用水。

关键词: 价格弹性, 工业节水, 工业用水, 联立方程

Abstract: As for industrial water, the effectiveness of price leverage to reduce water consumption and improve the reuse rate is significant for water saving and industrial transformation and development. Historically, for a long period, it is difficult for water prices to play a role in regulating the supply and demand of water resources. At this stage, industrial water prices still have room for growth. That is why so many existing studies deal with the estimation of water price elasticity. Estimating the price elasticity of industrial water by logarithmic production function is not considered to be the reverse effect of water consumption on price, which will lead to bias in results. This research, based on the data of 216 Chinese cities in 2016, builds simultaneous equations to solve endogenous problems and estimate the price elasticity of demand for industrial water. Results showed that average results of 3SLS in China are -3.423, which is above the estimated results of agriculture and livelihood in existing literature, scilicet 1% addition of price will lead to 3.42% decrease of water consumption. At the region level, improving industrial water price is effective to save water, especially in eastern and central China. The possible reason for the highest industrial water price elasticity is that there is a large amount of non-consumptive water used in industry expressed as reuse rate of water consumption. Moreover, the assessment of the effectiveness of the policy should be based on not only the reduction of industrial water demand when water prices rise, but also the impact of water prices on water efficiency and water reuse. If the rising water price can improve the efficiency of industrial water use and promote the reuse of industrial water, it will not have a great impact on industrial economic growth to some extent. Therefore, from the perspective of characteristics of industrial water, reuse rate will be used as an explained variable to set up an equation to estimate the effect of price on water conservation. Results showed that water price and reuse rate are positively correlated, indicating that there exists negative impact of increasing industrial water price, which will be an offset by improving reuse rate of water. What is more, it also means that raising the price of industrial water can encourage the recycling of water, and finally promote the industrial development.

Key words: industrial water conservation, industrial water consumption, price elasticity, simultaneous equation

胡晓霁, 唐溧, 刘亚慧, 董筱丹. 工业用水价格杠杆的有效性——基于联立方程模型[J]. 自然资源学报, 2020, 35(2): 413-424.

HU Xiao-ji, TANG Li, LIU Ya-hui, DONG Xiao-dan. Effectiveness of industrial water price leverage: Based on simultaneous equation model[J]. JOURNAL OF NATURAL RESOURCES, 2020, 35(2): 413-424.

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工业用水价格杠杆的有效性——基于联立方程模型

Effectiveness of industrial water price leverage: Based on simultaneous equation model

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