Mining bureaucracy and new text-based knowledge for scholarly learning

Blending scholarly learning and artisanal practices was a challenge for classical educational systems in both China and the West. Although the text-and-visual-based culture of technology-related knowledge provided essential communication vehicles for higher technical education, the formalisation of modern technical education was neither a linear evolution of the traditional system of apprenticeship nor an innovation that originated from the classical learning at universities. Instead, it was a complex synthesis of school and workshop cultures that spanned more than two centuries (from the seventeenth to the late nineteenth centuries) in the West. It encountered particular cultural prejudices and university-based resistance to changing old orders and obtaining equal recognition and status in higher education.Footnote ¹⁸

Mining as an important thread in the European educational history is worth our attention. Treatises on mining and metallurgy written by experienced experts in Europe emerged and flourished after 1500.Footnote ¹⁹ The mining education in the German states (such as Saxony) in the early modern period led the way toward formalisation of technical schools in Europe. By the mid-eighteenth century, training mining officers or bureaucrats was of growing significance when the German states aimed to centralise the control of the mining industry. They established mining academies (i.e. Bergakademie as well as Bergschule) as public institutions to train mining officials and employed them in the state-owned industries.Footnote ²⁰ The German mining-school pattern was further transferred to other regions in Europe and became a prototype for technical schools, especially those later famous Polytechniques and Technische Hochschulen.Footnote ²¹ The earlier training programmes of mining schools, designed for bureaucrats rather than artisans or craftsmen, conform to the core value of German cameralism—the science of state administration, which was particularly developed by Johann Beckmann (1739–1811) as the concept of Technologie in the late eighteenth century.Footnote ²²

Similar to the German cameralism, mining administration (kuangzheng 礦政), also mentioned as kuangwu 礦務 (mining affairs), was one of the well-established fields in the Qing bureaucracy of managing mint metals and monetary policies long before the arrival of Western imperialism. The Qing state launched and sustained the development of mining industries with its own institutional framework (including policies and laws),Footnote ²³ although no specific physical institutions like the later mining bureaus (such as those established in Hubei and elsewhere after 1870) were established. Local officials (such as the mining officials) were agents of the central government and their assistants, such as clerks, runners, servants, and secretaries, had a good command of local conditions and extended technical expertise and skills to assist administrative operations.Footnote ²⁴

One distinct feature of the Qing's mining bureaucracy was that mining was foremost concerned with political and social order. Under Qing law, mining could not harm farmland or fengshui 風水 (geomancy).Footnote ²⁵ Therefore, mining officials and their assistants had developed their own way of managing matters related to mines,Footnote ²⁶ including compiling administrative handbooks such as Diannan kuangchang tulüe 滇南礦廠圖略 (Illustrated Account of the Mines and Smelters in Yunnan) (published in 1844).Footnote ²⁷ These procedures did not impact the classical educational system. Through their compilation by literati, they could be said to have emerged in conversation with the classical educational system.

After 1860, many Qing reformers desired a quick ‘fix’ in order to revitalise the empire. Under these circumstances, the mining industry called for urgent reforms by introducing new (i.e. Western) technology and knowledge. ‘The study of mining’ (kuangxue 礦學) subsequently emerged as a new field for scholarly learning and text-based Western mining knowledge was circulated among Chinese intellectuals.Footnote ²⁸ The Jiangnan Arsenal series provided contemporary Chinese readers (officials, literati-scholars, merchants, and students) with the most direct approach to ‘the study of mining’ and for practical mining knowledge as related to administrative, commercial, or purely scholarly learning purposes.Footnote ²⁹ John Fryer (1839–1928) was the most productive translator at the Jiangnan Arsenal in Shanghai and contributed significantly to the translation of mining treatises.Footnote ³⁰ The earliest translations included a monograph on coal mining, Kaimei yaofa 開煤要法 (lit. Essentials to Opening Coal Mines, published in 1871). In 1876, Fryer founded China's first scientific journal, Gezhi huibian 格致彙編 (The Chinese Scientific and Industrial Magazine, 1876–92).Footnote ³¹ He also opened a question-and-answer session in that journal to interact with readers. Remarkably, the topic of coal mining had aroused much reader interest in 1876. Several readers wanted to know about the methods or tools for mining coal or the principle of safety lamps in mines,Footnote ³² or even what mine shafts and working-faces looked like.Footnote ³³ To answer them, Fryer provided illustrations, such as the sectional view of underground coal mines (Figure 1) and the water-lifting machine commonly used in coal mines in England and India (Figure 2).Footnote ³⁴

Figure 1. Sectional view of underground coal mines.

Source: J. Fryer, ‘Xiguo kaimei lüefa 西國開煤畧法 [Simplified methods of mining coal in Western countries]’, Gezhi huibian 格致彙編 (October 1876).

Figure 2. Water-lifting machine used in coal mines.

Source: J. Fryer, ‘Qishui jiqi 起水機器 [Water-lifting machine]’, Gezhi huibian (June 1876).

Was the text-based Western mining knowledge influential? It was. Consider, for instance, Sheng Xuanhuai's mining practices in Hubei. Local officials, such as Zhang Fuhuang, had studied the book Kaimei yaofa carefully and thus knew the advantage of using Western tools and machinery for drilling and drainage. At that time, an English merchant called James Henderson was commissioned by the Qing government to purchase mining machines in England. Nevertheless, his final bid price, estimated at more than £45,000, was too high to make the plan of opening coal mines in Zhili Province profitable.Footnote ³⁵ After reading the news about Henderson in Shenbao on 6 April 1875, Zhang Fuhuang and other local officials in Hubei knew that Western machinery cost too much. Instead of using labour-saving devices for drilling, they still planned to hire miners so that the local poor could make a livelihood through mining.Footnote ³⁶ According to a report by another local official, Ye Sizhong, it was decided to use Western-style pipes made of copper alloy, instead of the traditional bamboo pipes, for lifting water in coal mines.Footnote ³⁷ In general, the influence of foreign machinery on the Chinese mining industry in the early industrialisation phase should not be overestimated. Although large numbers of enterprises in China at the turn of the twentieth century used foreign machinery, their operations were on a very small scale.Footnote ³⁸ As translated works on mining became timely textbooks for Chinese intellectuals who had received no mining education, mining field managers were increasingly recognising the necessity for educating mining experts. China's education of its own mining engineers was not intended to be a simple replacement of traditional fengshui experts, but was driven by distrust of foreign expertise, as shall be examined in the following section.

Expertise in demand: from the fengshui expert to the distrust of foreign mining engineers

The tension between government goals and local interest is manifested fully in the case of coal mining in Hubei in the 1870s. Sheng Xuanhuai was interested in finding coal in Guangji County, Hubei, where he had constantly seen the abandoned pits near the riverside. He then commissioned local officials to make field surveys and send him regular reports. The survey reports revealed that private and illegal coal mines were common in the area, and that anthracite of good quality and suitable for the needs of arsenals and steam ships was mined in that region. However, coal mining was not favoured by the local populace, due mainly to fengshui disputes.Footnote ³⁹ In the following months, while trial mining went on, the mining officials had to cooperate with the local gentry and, above all, they had to follow the advice of the ‘dragon head’ (longtou 龍頭), the local fengshui expert, when excavating at sites surrounded by graves.Footnote ⁴⁰

When trial mining with native methods (including the instructions of the ‘dragon head’) did not prove profitable, Sheng Xuanhuai and his advisers turned their attention to Western mining methods, particularly the deep drilling tools, which could enable prediction of the depth and range of a coal seam. To that end, a British mining engineer named Samuel John Morris (Chinese name: Ma Lishi 馬立師, or 馬利師; circa 1840–96Footnote ⁴¹) was hired at a monthly salary of 300 taels,Footnote ⁴² firstly for a period of six months. Morris held an engineering degree awarded in 1855 and had worked in India from 1863 to 1867. Before coming to China, he worked at coal mines in Takashima and Imari in Japan. Morris's major activities were documented as drilling and prospecting in Hubei.Footnote ⁴³

Nevertheless, Morris failed to discover a rich or large deposit in the former coalfield after expiration of his contract period in around mid-1876. As Morris complained in several letters, the local manager of coal mines did not cooperate with him and replaced his assistants without giving advance notice. Moreover, the assistants did not follow his instructions and even destroyed the excavation site by throwing rocks because they disliked foreigners.Footnote ⁴⁴ Sheng Xuanhuai reported Morris's inability in prospecting to Li Hongzhang. Afterwards, he requested Robert Hart (1835–1911), a Qing government appointee as inspector general of the Chinese Maritime Customs Service, to look for a proper mining engineer from England.Footnote ⁴⁵ It is necessary to add some clarification as to judging whether Morris was a qualified coal-mining engineer. In fact, Morris specialised in civil engineeringFootnote ⁴⁶ and had experience in developing mining excavation using machines, such as in his former work at the Takashima coal mine in 1868.Footnote ⁴⁷ But his former experience in Japan did not demonstrate his ability as a successful mining engineer.Footnote ⁴⁸

Morris continued with his engineering and commercial activities in China. From circa 1883 to 1893, he was hired by Sheng Xuanhuai to prospect for coal as well as iron for the Jinzhou kuangwu ju 金州礦務局 (Mining Bureau of Jinzhou) and also worked for the China Merchants Steamship Navigation Company.Footnote ⁴⁹ He changed his Chinese name to Ma Kuangshi 馬礦師 (lit. ‘Mining Master Ma’ or ‘Mining Engineer Ma’), although he was also mentioned as Ma Lisheng 馬利生 in some Chinese translations of his letters, probably because there was already another merchant named John Morris registered as Ma Lishi in Shanghai.Footnote ⁵⁰ In the popular Shanghai daily newspaper Shenbao from February to May in 1886, Samuel J. Morris (i.e. Ma Kuangshi) advertised himself as an experienced civil and mining engineer who had worked in China and Japan for 18 years. He stressed that he was able to distinguish different types of ores and was ready to provide advice to anyone wishing to invest in mining industries.Footnote ⁵¹ A subtle change of his professional description in the English directories was from ‘civil and mining engineer’ registered in 1889 into ‘civil engineer and architect’ in 1892.Footnote ⁵² When the hiring of competent Western engineers was stressed by Chinese reformers, it invariably heightened the pressure on those incompetent individuals such as Morris, which turned him away from his mining business; he even requested Sheng Xuanhuai to provide him with a recommendation letter to confirm his almost 20 years of work experience and competence in China.Footnote ⁵³

Indeed, the early experience with Samuel J. Morris changed late Qing officials’ attitudes towards expertise as well as foreign experts. Despite his later employment by Sheng Xuanhuai, Morris's ‘failure’ in Hubei was widely considered by the Qing officials as well as other literati-scholars as indicative of the inferior quality of overseas Western mining engineers, because they believed that the first-class engineers could make a living in mining industries easily and would not be willing to leave their own countries. Otherwise, their salaries would be extremely high.Footnote ⁵⁴ Since the Western experts were not always reliable, Sheng Xuanhuai began to address the importance of educating China's own mining experts.

He had already emphasised the necessity for recruiting specialised experts in the mining regulations issued in early 1876. In that regard, he specified the need to hire truly capable persons, instead of those assistants or advisers recommended by local officials. In particular, in one letter Lun kuangshi shu 論礦事書 (On mining affairs) addressed to Li Hongzhang in September 1876, Sheng Xuanhuai emphasised the importance of mining engineers in opening up a mine. In his view, the major impediment to developing mining industries was the difficulty not in raising funds, but in finding a proper expert to run the mines. Prospecting was the very first and key step. Such expertise or talent (rencai 人才) for prospecting should be domestically cultivated.Footnote ⁵⁵

For the first time, Sheng Xuanhuai proposed that some 10 to 20 Chinese students who were studying at the Tongwen College (in Beijing), or at arsenals in Fujian or Shanghai, should be selected to learn from the Western engineers. In addition, Sheng proposed that some 10 to 20 Chinese students should be sent abroad to study mining engineering. The last point, in Sheng's view, was directly relevant to maintaining China's sovereignty.Footnote ⁵⁶ It also echoes one of Li Hongzhang's statements in early 1876 that Chinese mining industries could employ foreigners but should not be taken advantage by foreigners.Footnote ⁵⁷

Sheng's proposal was soon put into action. In 1877, Li wrote to the China Education Mission commissioner Yung Wing (1828–1912) that he should encourage Chinese students to take up the major of mining engineering, which the country desperately needed.Footnote ⁵⁸ Similarly, when sending the students from Fuzhou Navy Yard to Europe, Li also told the throne that some students should take up subjects like mining. As a consequence, five students, namely Lin Qingsheng, Chi Zhenquan, Zhang Jinsheng, Luo Zhenlu, and Lin Rizhang, ended up in the École nationale supérieure des mines in Paris and returned to China in around 1881.Footnote ⁵⁹ They were actively engaged in prospecting for coal, lead, iron, and copper in Fujian, Zhili, Shandong, and Hubei Provinces in the 1880s and early 1890s.Footnote ⁶⁰ Moreover, when the Chinese Education Mission project was aborted in 1881, about ten of the students who had returned from the USA had become involved in the mining industries (primarily in the Kaiping coal mines).Footnote ⁶¹

Sheng Xuanhuai's proposal for a mining school at Yantai

The failure of the Hubei mining enterprise in 1881 shifted Sheng Xuanhuai away from mining to other industries, including building railway lines and establishing telegraph companies as well as telegraph schools. He served as the Superintendent of East Customs (Donghaiguan jiandu) at Yantai/Chefoo from 1886 to 1892. His close connection with mining industries in Shandong even dated back to 1882. As mentioned above, Chi Zhenquan and Lin Rizhang, two of the first generation of returned students who studied mining in Europe, were appointed by Li Hongzhang to survey lead deposits in Shandong and Sheng was appointed by Li to supervise the mining enterprise in order to supply lead to local arsenals.Footnote ⁶² In later reports to Li, Sheng made a formal acknowledgement of the ability of the returned Chinese students. In his view, the ‘students’ (kuang xuesheng 礦學生), namely Chi and Lin, were capable of lead prospecting and smelting, and therefore they could replace foreign engineers (kuangshi 礦師).Footnote ⁶³

The principal stimulus to the plan of initiating a mining school at Yantai, according to the currently limited available evidence, was the urgent 1887–88 coinage reforms caused by the late Qing monetary crisis. Adopting foreign machinery for minting coins began to be practised in Zhili and Jiangsu Provinces in 1887. Purchasing machinery from the West and training Chinese artisans or workers were challenging. But a larger problem was that of solving the insufficient supply of mint metals, and therefore revitalising non-ferrous mining industries beyond coal and iron.Footnote ⁶⁴ Traditional mining industries in the Southwest, which supplied Chinese central and provincial mints with mint metals (primarily copper and zinc), had been largely destroyed by the social unrest during the 1870s. One new proposal approved in the 1887–88 coinage reforms was to open up zinc and lead mines in Zichuan, Shandong Province, which could alleviate the problems caused by transporting zinc and lead out of Guizhou and Hunan Provinces over mountains and long distances.Footnote ⁶⁵ This brought Shandong a new opportunity to develop non-ferrous mining. But the increased cost of hiring foreign engineers for prospecting in that province and elsewhere in China surely would not have escaped the attention of an astute official-merchant such as Sheng.

Moreover, the major source of copper for Chinese central mints had primarily been Yunnan copper and imported Japanese copper. Tang Jiong (1829–1909), the Yunnan provincial governor in charge of mining affairs from 1887 onwards, investigated the Yunnan mining industries and stressed the importance of introducing Western mining machinery to copper mines. He made reference to the innovation of Japanese mining industries and proposed hiring Japanese engineers. He also pointed out that, in Japanese copper mines, their native engineers had replaced the foreign ones.Footnote ⁶⁶ Such a rapid change from China's neighbouring country, as a successful example of promoting technical education, began to arouse the attention of late Qing reformers.Footnote ⁶⁷

This impression was further strengthened and swiftly delivered by Li Shuchang (1837–98), then the Chinese ambassador to Japan. After the new minting policy was issued in 1887, Sheng Xuanhuai, possibly being commissioned by Li Hongzhang, asked Li Shuchang to help him purchase copper in Japan and also consulted him on Japanese minting technology. In a letter dated 19 February 1888 (GX14/1/8Footnote ⁶⁸), Li Shuchang gave Sheng the following advice on establishing a mining school: China has an urgent demand for foreign experts in numerous branches and the key step in revitalising mining administration would be to establish schools and study geology and chemistry as well as metallurgy.Footnote ⁶⁹

Apparently, Sheng Xuanhuai considered this advice immediately and urgently. Evidence on the early development of this plan is found in several telegrams. According to a reply message telegraphed to Sheng on 14 April 1888 (GX14/3/4), Zhang Zhidong (1837–1909), then general governor of Guangdong and Guangxi Provinces, fully supported this plan. About ten days later, Sheng received another telegram reply dated 25 April 1888 (GX14/3/15) from the Shandong provincial governor, Zhang Yao (1832–91). The latter Zhang asked him whether he had talked with Li Hongzhang.Footnote ⁷⁰ Consequently, another week later, in the evening of 3 May 1888 (GX14/3/23), Sheng telegraphed Li, making the following points:

1. (1) Both British and American mining engineers are trained at schools. Their students at mining schools should spend several months with their teachers in the field, to investigate mines and to assay mineral ores. A mining school like this is planned at Yantai, so that Chinese mining students could survey the mines nearby;

2. (2) Provincial governors from Guangdong and Shandong support this proposal, but the budget plan has to be reported to the government. Besides, funds can also be raised from merchants; and

3. (3) First-class mining engineers specialised in non-ferrous metals, coal, and iron, respectively, are in demand. These engineers should be both able to teach Chinese students and survey the fields. They will begin by receiving a three-year contract.

Instantly, in the early morning of the next day, Li Hongzhang telegraphed Liu Ruifen (1827–92), the ambassador in London, to seek proper foreign engineers.Footnote ⁷¹ Three months later on around 6 August 1888 (GX14/6/29), Sheng went to Tianjin and discussed this plan with Li. A few days after their meeting, the news of establishing a mining school was announced in the Shanghai newspaper, Shenbao. According to the newspaper, Max Goebel (Gu Beier), then the consul-general for Belgium at Shanghai, was willing to help seek competent and experienced foreign engineers as teaching staff.Footnote ⁷²

As shown in Sheng's archive series, a proposal for the entire plan of a mining school was drafted on 13 November 1888 (GX14/10/10), but the final proposal, with substantial changes and revisions, was submitted by Sheng to Li Hongzhang three days later. The submitted proposal consists of ten items that address the following subjects: (1) sources of funding for maintenance fees; (2) hiring foreign mining engineers for teaching; (3) reasons for choosing Yantai as the location; (4) buildings and infrastructure for the school; (5) purchasing relevant books, ore species, and mining tools or devices; (6) recruiting students; (7) arrangement of three-year courses; (8) qualifications of students; (9) tasks of the superintendent and administrative assistants; and (10) promotion for foreign teachers and Chinese students awarded by the Qing government.Footnote ⁷³

Sheng's financial plan reveals how a mining school could be institutionalised in the late Qing administration through joint state–merchant investment and management. Through raising funds from four provinces, namely Zhili, Jiangnan, Guangdong, and Shandong,Footnote ⁷⁴ with an amount of 5,000 taels per year from each province, the maintenance fees for the school would be covered. In addition, the China Merchants Steamship Navigation Company would donate the one-time amount of 15,000 taels for building the school infrastructure. By adding the merchant company (of which Sheng was also the director) into the sponsorship, Sheng placed himself in a more powerful position to supervise the school. Governors of the four provinces would have priority to hire the first-class graduates from the mining school, and any other mining enterprises from other provinces—being invested in either by the officials or by private merchants—could employ the rest of the graduates.

Qualifications of graduates from this mining school, however, stirred up some controversy. As previously mentioned, the first generation of students who returned from Europe was often recorded as (mining) students (kuang xuesheng), instead of mining engineers (kuangshi), because these returned students were not treated equally to foreign engineers in terms of salaries. Sheng proposed to confer the certificate of ‘first-class mining engineer’ (toudeng kuangshi) to excellent graduates and to award official titles or positions to such graduates. But, as explained by Li Hongzhang in one letter, mining graduates could not be conferred with official ranking titles such as those from navy or military schools because the latter schools were built for military defences. Despite this, Sheng still proposed to award them honourable official status with a corresponding hat button (xuxian dingdai).Footnote ⁷⁵ As Confucian scholars’ debate over the concept of art or technology in around 1885 suggests, non-classical learning could not be simply legitimised in the imperial examination system.Footnote ⁷⁶ In practice, this meant that a Western-style non-military school could not be built in haste.

Global recruitment of teachers for the mining school

Zhong Tianwei (1840–1900) played a managerial role in planning the mining school and in recruiting teachers globally. Zhong acted as one of Sheng's advisers (even if not officially or nominally) from the late 1880s until 1900.Footnote ⁷⁷ He was one of John Fryer's close collaborators in the Jiangnan Arsenal's translation projects. Another joint connection between Fryer, Sheng, and Zhong was the Xu family: Fryer's earlier co-translators or Chinese writers on mining-related works involved the famous and productive scholars Xu Shou (1818–84) and his son, Xu Jianyin (1845–1901). The Xu family (also including Xu Huafeng and Xu Jiabao) contributed extensively to the translation of works on chemistry and industrial arts, including iron, steel, and general metal-working industries.Footnote ⁷⁸ Zhong Tianwei travelled with Xu Jianyin and the above-mentioned Li Shuchang to Europe during 1879–81 to investigate the military and manufacturing industries. Both Zhong and Xu were involved in initiating the coal, iron, and steel industries in Hubei before 1895 and Zhong had close contact with Li Shuchang when Li served as the Chinese ambassador in Japan.

The earliest available letter, in which Zhong Tianwei briefly mentioned the mining-school plan to Sheng, was dated 8 June 1888 (GX14/4/29). It is very clear that they had previously discussed this plan. Zhong's letter aimed to recommend a number of Chinese technical experts to Sheng for developing industries in Shandong. A mining school, for example, could give the above-mentioned Xu Huafeng an official position so that Xu would be motivated to work for the government.Footnote ⁷⁹ Zhong Tianwei was the major coordinator to negotiate with Max Goebel as well as John Fryer in the search for teaching staff. The latter happened to travel to the USA in 1888 and helped Zhong/Sheng to recruit a US mining engineer. The plan did not work out. The mining engineers from the USA were too expensive to hire.Footnote ⁸⁰ With the recommendation of Goebel, Sheng and Zhong hired a Belgian mining engineer, Emile Braive (Bai Naifu), at a monthly salary of about 500 taels. They planned to hire another Belgian mining engineer, who would arrive later, as an instructor at a monthly salary of 250 taels.Footnote ⁸¹

Braive arrived in China on 1 April 1889 and thereafter submitted to Sheng Xuanhuai some general proposals for the mining school (in an English draft with a Chinese translation) along with the English curriculum, possibly on 18 May 1889 (GX15/4/19).Footnote ⁸² But he did not proceed any further with the school plan. Instead, while waiting for another foreign instructor to come to China, he made geological explorations in Shandong and other provinces in the North. Then, he was ‘borrowed’ by Zhang Zhidong, the general governor of Hubei and Hunan Provinces who had just being transferred from Guangzhou to Wuchang in 1889, to survey the iron and coal deposits of the Yangzi Valley downstream from Hankou, in order to investigate China's own raw-material supply for constructing a railway line from Beijing to Hankou.Footnote ⁸³

Yet, Braive's English curriculum and general regulations are still worth noting. The curriculum is almost an abridged copy, with some modifications, of those courses published in the College of Engineering (i.e. the former Kōbu Daigakkō) at the Imperial University of Japan (Teikoku Daigaku) for the year 1886–87. For example, it lists all the names of professors and assistant professors whose courses were related to mining and metallurgy, as shown in the English catalogue of that university (see Figure 3). Braive's list also includes a Japanese lecturer's name (i.e. S. Kawano 河野), which is not given in the catalogue.Footnote ⁸⁴

Figure 3. Names of professors and assistant professors mentioned in E. Braive's 1889 mining-school proposal. Source: Shanghai tushuguan (ed.), Sheng Xuanhuai wenhua jiaoyu dang'an xuanbian, vol. 7 (Shanghai, 2019), p. 580.

No separate Chinese translation of this curriculum has currently been found. The only exceptions include the Kanji characters given for the Japanese names and their degree titles, and some courses are translated into Chinese (see Figure 3 and Table 1). The three-year courses, compared with those of the Imperial University of Japan, are slightly modified, for example, by shifting one course to different study years, or splitting one course into two, or adding more hours to some courses (see Table 1).

Table 1. Three-year courses listed in E. Braive's 1889 mining-school proposal in comparison with those of the Imperial University of Japan

Sources: Shanghai tushuguan (ed.), Sheng Xuanhuai wenhua jiaoyu dang'an xuanbian, vol. 7 (Shanghai, 2019), pp. 582–84; Imperial University of Japan (Teikoku Daigaku): The Calendar for the Year 1886–87 (Tokyo, 1886), pp. 50–51.

Despite its obvious duplication, Braive's curriculum does not indicate anything about the Japanese university, except for a statement that ‘[s]alaries of foreign professors are about $400 a month, and those Japanese professors are about $300 a month in average’.Footnote ⁸⁵ Sheng Xuanhuai and Zhong Tianwei were, very likely, aware of the source of this curriculum and were well informed about the Japanese educational system, since Zhong was in charge of investigating minting technology and even visited Japan at the end of 1888.Footnote ⁸⁶

While Zhong was hoping to hire a mining engineer from the USA, he also planned to hire a Japanese engineer as assistant professor because of a lower salary for the Japanese.Footnote ⁸⁷ Later on in 1888, Zhong changed his mind: since the Japanese instructors were not good at English, a Chinese expert would be better employed. At that time, Zhang Jinsheng, who was among the first generation of returned mining students from Europe and who had already undertaken several field surveys in Shandong with Xu Huafeng, was recommended by Xu and Zhong as a proper teaching assistant in the mining school.Footnote ⁸⁸

Apparently, Sheng Xuanhuai's plan of hiring only two (foreign) mining engineers for teaching 20 to 30 students all the subjects (e.g. mechanics, chemistry, physics, drawing, mineralogy, geology and prospecting, metallurgy, and surveying) was not realistic. In addition to Braive's proposal, Sheng also consulted another of the above-mentioned returned students, Luo Zhenlu, on the mining-school regulations. In a rough preliminary proposal, Luo pointed out that at least five foreign professors and five assistant professor or instructors should be hired.Footnote ⁸⁹ Both Braive's and Luo's proposals opened the door for Sheng Xuanhuai and his advisers to reimagine the scale of this school and the placement of such as a school in the Qing bureaucracy and Chinese society.

Sheng Xuanhuai's detours to engineering education

Since the Yantai mining school did not materialise as planned, some scholars hold the view that Li Hongzhang did not approve it because of the inconvenient location. Instead of being at Yantai, a location at Tianjin would have been ideal for supervising the school, in case Sheng were promoted or transferred to another place.Footnote ⁹⁰ Certainly, Li never submitted this plan to the throne, as hoped for by Sheng Xuanhuai from the beginning. With hindsight bias, Li hesitated in approving this plan, perhaps because he was anticipating Sheng's promotion in the future. In 1893, Sheng was, indeed, transferred to the position of Superintendent of Tianjin Customs and, in Tianjin in 1895, he established China's first engineering university—Beiyang University—with a department of mining engineering. Beiyang University was managed by a former US missionary, Dr. Charles Tenney (1857–1930), and therefore hired almost only American professors.Footnote ⁹¹

One previously overlooked aspect in the entire story is that the original mining-school proposal was not refused entirely. Instead, Zhang Zhidong practised this idea in Hubei. As shown in several telegram exchanges with Li Hongzhang in late 1889, Zhang recognised the necessity and urgency in establishing technical schools for supporting railway construction. And a chemistry and mining school was considered by him as the foundation for producing iron and steel.Footnote ⁹² At that time, Sheng's ambition in mining industries was also fuelled by the railway plan. In his view, China should focus on developing one major mining enterprise, instead of opening several small mines.Footnote ⁹³ This insight and his previous mining and surveying practices in Hubei were highly valued by Zhang and Li. Within one month, in late 1889, Zhang invited Sheng to meet in Shanghai and discuss further plans.Footnote ⁹⁴ Zhong Tianwei, in particular, was hired by Zhang to organise the mining school.Footnote ⁹⁵

A laboratory was opened in Wuchang in 1890 for analysing coal and ores from Hubei and Hunan. The laboratory was developed into a mining ‘college’ (Kuanghua xuetang) in 1892 (with about 20 students in 1895).Footnote ⁹⁶ That mining college, with yearly maintenance fees of 30,000 taels, was only a small part of the iron and steel works, with estimated total yearly fees of 2.468 million taels.Footnote ⁹⁷ Even more dramatically, in around late 1896 and early 1897, when Sheng Xuanhuai took over the Hanyang iron works from Zhang Zhidong, he established a ‘Hanyang steel and iron works college’ (Hanyang gangtiechang xuetang), specialising in chemical analysis, iron and steel metallurgy, and machinery.Footnote ⁹⁸ Strictly speaking, the Hanyang college was still not a ‘mining’ school, but a ‘metallurgy’ school. In both Tianjin and Wuchang, Sheng had realised the plan of initiating mining education.